Crystallography Open Database

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1513566 CIF
HKL		C10 H10 N4 O2P 1 21/c 111.0104; 10.0398; 18.604
90; 97.32; 90		2039.77Poulain, Agnieszka; Wenger, Emmanuel; Durand, Pierrick; Jarzembska, Katarzyna N.; Kamiński, Radosław; Fertey, Pierre; Kubicki, Maciej; Lecomte, Claude
Anharmonicity and isomorphic phase transition: a multi-temperature X-ray single-crystal and powder diffraction study of 1-(2'-aminophenyl)-2-methyl-4-nitroimidazole
IUCrJ, 2014, 1, 110-118
1513567 CIFC10 H10 N4 O2P 1 21/c 110.978; 10.006; 18.488
90; 97.223; 90		2014.7Poulain, Agnieszka; Wenger, Emmanuel; Durand, Pierrick; Jarzembska, Katarzyna N.; Kamiński, Radosław; Fertey, Pierre; Kubicki, Maciej; Lecomte, Claude
Anharmonicity and isomorphic phase transition: a multi-temperature X-ray single-crystal and powder diffraction study of 1-(2'-aminophenyl)-2-methyl-4-nitroimidazole
IUCrJ, 2014, 1, 110-118
1513568 CIFC10 H10 N4 O2P 1 21/c 111.047; 10.129; 18.652
90; 97.223; 90		2070.5Poulain, Agnieszka; Wenger, Emmanuel; Durand, Pierrick; Jarzembska, Katarzyna N.; Kamiński, Radosław; Fertey, Pierre; Kubicki, Maciej; Lecomte, Claude
Anharmonicity and isomorphic phase transition: a multi-temperature X-ray single-crystal and powder diffraction study of 1-(2'-aminophenyl)-2-methyl-4-nitroimidazole
IUCrJ, 2014, 1, 110-118
1513569 CIFC44 H40 N6 O4P -18.7711; 10.0113; 12.0057
67.978; 78.03; 69.224		910.38Dubey, Ritesh; Pavan, Mysore S.; Guru Row, Tayur N.; Desiraju, Gautam R.
Crystal landscape in the orcinol:4,4'-bipyridine system: synthon modularity, polymorphism and transferability of multipole charge density parameters
IUCrJ, 2014, 1, 8-18
1513570 CIF
HKL		C44 H40 N6 O4P 1 21/n 19.2233; 36.2938; 16.5853
90; 97.827; 90		5500.2Dubey, Ritesh; Pavan, Mysore S.; Guru Row, Tayur N.; Desiraju, Gautam R.
Crystal landscape in the orcinol:4,4'-bipyridine system: synthon modularity, polymorphism and transferability of multipole charge density parameters
IUCrJ, 2014, 1, 8-18
1513572 CIFC44 H40 N6 O4P 1 21/n 19.0828; 12.3446; 16.6095
90; 96.32; 90		1851Dubey, Ritesh; Pavan, Mysore S.; Guru Row, Tayur N.; Desiraju, Gautam R.
Crystal landscape in the orcinol:4,4'-bipyridine system: synthon modularity, polymorphism and transferability of multipole charge density parameters
IUCrJ, 2014, 1, 8-18
1513573 CIFC44 H40 N6 O4P 1 21/n 19.118; 12.3427; 16.64
90; 96.381; 90		1861.08Dubey, Ritesh; Pavan, Mysore S.; Guru Row, Tayur N.; Desiraju, Gautam R.
Crystal landscape in the orcinol:4,4'-bipyridine system: synthon modularity, polymorphism and transferability of multipole charge density parameters
IUCrJ, 2014, 1, 8-18
1513574 CIFC44 H40 N6 O4P 1 21/n 19.1938; 12.3828; 16.7311
90; 96.358; 90		1893.04Dubey, Ritesh; Pavan, Mysore S.; Guru Row, Tayur N.; Desiraju, Gautam R.
Crystal landscape in the orcinol:4,4'-bipyridine system: synthon modularity, polymorphism and transferability of multipole charge density parameters
IUCrJ, 2014, 1, 8-18
1513575 CIFC44 H40 N6 O4P 1 21/n 19.2118; 36.2075; 16.5458
90; 97.923; 90		5465.9Dubey, Ritesh; Pavan, Mysore S.; Guru Row, Tayur N.; Desiraju, Gautam R.
Crystal landscape in the orcinol:4,4'-bipyridine system: synthon modularity, polymorphism and transferability of multipole charge density parameters
IUCrJ, 2014, 1, 8-18
1513576 CIFC17 H16 N2 O2P 1 21/c 117.8201; 8.3288; 39.3222
90; 91.901; 90		5833Dubey, Ritesh; Pavan, Mysore S.; Guru Row, Tayur N.; Desiraju, Gautam R.
Crystal landscape in the orcinol:4,4'-bipyridine system: synthon modularity, polymorphism and transferability of multipole charge density parameters
IUCrJ, 2014, 1, 8-18
1513577 CIF
HKL		C6 H4 Cl2 OI 41/a :226.127; 26.127; 3.7926
90; 90; 90		2588.9Mukherjee, Arijit; Desiraju, Gautam R.
Halogen bonds in some dihalogenated phenols: applications to crystal engineering
IUCrJ, 2014, 1, 49-60
1513578 CIFC6 H4 Cl2 OI 41/a :226.186; 26.186; 3.8144
90; 90; 90		2615.6Mukherjee, Arijit; Desiraju, Gautam R.
Halogen bonds in some dihalogenated phenols: applications to crystal engineering
IUCrJ, 2014, 1, 49-60
1513579 CIFC6 H4 Cl2 OI 41/a :226.251; 26.251; 3.8524
90; 90; 90		2654.7Mukherjee, Arijit; Desiraju, Gautam R.
Halogen bonds in some dihalogenated phenols: applications to crystal engineering
IUCrJ, 2014, 1, 49-60
1513580 CIFC6 H4 Br Cl OI 41/a :226.419; 26.419; 3.8824
90; 90; 90		2709.8Mukherjee, Arijit; Desiraju, Gautam R.
Halogen bonds in some dihalogenated phenols: applications to crystal engineering
IUCrJ, 2014, 1, 49-60
1513581 CIFC6 H4 Br Cl OI 41/a :226.465; 26.465; 3.9017
90; 90; 90		2732.7Mukherjee, Arijit; Desiraju, Gautam R.
Halogen bonds in some dihalogenated phenols: applications to crystal engineering
IUCrJ, 2014, 1, 49-60
1513582 CIFC6 H4 Br Cl OI 41/a :226.65; 26.65; 3.965
90; 90; 90		2816Mukherjee, Arijit; Desiraju, Gautam R.
Halogen bonds in some dihalogenated phenols: applications to crystal engineering
IUCrJ, 2014, 1, 49-60
1513583 CIFC6 H4 Br Cl OP 1 21/c 111.457; 4.1113; 15.233
90; 108.905; 90		678.8Mukherjee, Arijit; Desiraju, Gautam R.
Halogen bonds in some dihalogenated phenols: applications to crystal engineering
IUCrJ, 2014, 1, 49-60
1513584 CIFC6 H4 Cl I OP 1 21/c 111.222; 4.263; 15.81
90; 106.933; 90		724Mukherjee, Arijit; Desiraju, Gautam R.
Halogen bonds in some dihalogenated phenols: applications to crystal engineering
IUCrJ, 2014, 1, 49-60
1513585 CIFC6 H4 Cl I OP 1 21/c 111.242; 4.286; 15.87
90; 107.016; 90		731.2Mukherjee, Arijit; Desiraju, Gautam R.
Halogen bonds in some dihalogenated phenols: applications to crystal engineering
IUCrJ, 2014, 1, 49-60
1513586 CIFC6 H4 Cl I OP 1 21/c 111.26; 4.321; 15.88
90; 106.74; 90		740Mukherjee, Arijit; Desiraju, Gautam R.
Halogen bonds in some dihalogenated phenols: applications to crystal engineering
IUCrJ, 2014, 1, 49-60
1513587 CIFC6 H4 Br2 OP 1 21/c 111.169; 4.2067; 14.911
90; 91.07; 90		700.5Mukherjee, Arijit; Desiraju, Gautam R.
Halogen bonds in some dihalogenated phenols: applications to crystal engineering
IUCrJ, 2014, 1, 49-60
1513588 CIFC7 H3 Cl3 O3P 1 21/c 14.9531; 24.02; 8.007
90; 118.88; 90		834.1Mukherjee, Arijit; Desiraju, Gautam R.
Halogen bonds in some dihalogenated phenols: applications to crystal engineering
IUCrJ, 2014, 1, 49-60
1513589 CIFC7 H3 Cl3 O3P 1 21/c 14.9712; 24.094; 8.0459
90; 118.884; 90		843.8Mukherjee, Arijit; Desiraju, Gautam R.
Halogen bonds in some dihalogenated phenols: applications to crystal engineering
IUCrJ, 2014, 1, 49-60
1513590 CIFC7 H3 Cl3 O3P 1 21/c 14.979; 24.298; 8.0971
90; 119.108; 90		855.9Mukherjee, Arijit; Desiraju, Gautam R.
Halogen bonds in some dihalogenated phenols: applications to crystal engineering
IUCrJ, 2014, 1, 49-60
1513591 CIFC7 H5 Cl O2P -13.8017; 6.1607; 14.208
92.417; 94.718; 92.286		331.03Mukherjee, Arijit; Desiraju, Gautam R.
Halogen bonds in some dihalogenated phenols: applications to crystal engineering
IUCrJ, 2014, 1, 49-60
1513592 CIFC7 H5 Cl O2P -13.8208; 6.1785; 14.209
92.591; 94.866; 91.978		333.63Mukherjee, Arijit; Desiraju, Gautam R.
Halogen bonds in some dihalogenated phenols: applications to crystal engineering
IUCrJ, 2014, 1, 49-60
1513593 CIFC7 H5 Cl O2P -13.8686; 6.227; 14.243
92.794; 95.149; 91.493		341.2Mukherjee, Arijit; Desiraju, Gautam R.
Halogen bonds in some dihalogenated phenols: applications to crystal engineering
IUCrJ, 2014, 1, 49-60
1542771 CIF
Paper		C36 H30 B Cl F4 N2 O2 P2 RuP 1 21/c 119.0673; 9.8391; 20.5654
90; 117.58; 90		3419.8Casaretto, Nicolas; Pillet, Sebastien; Bendeif, El Eulmi; Schaniel, Dominik; Gallien, Anna K. E.; Klüfers, Peter; Woike, Theo
Multiple light-induced NO linkage isomers in the dinitrosyl complex [RuCl(NO)~2~(PPh~3~)~2~]BF~4~ unravelled by photocrystallographic and IR analysis
IUCrJ, 2015, 2, 35-44
1542772 CIFC4 H12 K Na O10P 21 21 211.9247; 14.3066; 6.2444
90; 90; 90		1065.31Mo, Frode; Mathiesen, Ragnvald H.; Beukes, Jon Are; Vu, Khanh Minh
Rochelle salt ‒ a structural reinvestigation with improved tools. I. The high-temperature paraelectric phase at 308K
IUCrJ, 2015, 2, 19-28
1542773 CIFC61 H40 Ag4 F28 N4 O8P -110.6531; 11.2628; 14.4311
72.401; 86.598; 82.882		1637.3Wright, James S.; Vitórica-Yrezábal, Iñigo J.; Adams, Harry; Thompson, Stephen P.; Hill, Adrian H.; Brammer, Lee
Solvent-vapour-assisted pathways and the role of pre-organization in solid-state transformations of coordination polymers
IUCrJ, 2015, 2, 188-197
1542774 CIFC28 H18 Ag2 F14 N2 O4P 1 21/c 111.1146; 22.7107; 13.2046
90; 111.785; 90		3095.07Wright, James S.; Vitórica-Yrezábal, Iñigo J.; Adams, Harry; Thompson, Stephen P.; Hill, Adrian H.; Brammer, Lee
Solvent-vapour-assisted pathways and the role of pre-organization in solid-state transformations of coordination polymers
IUCrJ, 2015, 2, 188-197
1542775 CIFC28 H18 Ag2 F14 N2 O4P 1 21/c 111.375; 22.5963; 13.346
90; 113.472; 90		3146.5Wright, James S.; Vitórica-Yrezábal, Iñigo J.; Adams, Harry; Thompson, Stephen P.; Hill, Adrian H.; Brammer, Lee
Solvent-vapour-assisted pathways and the role of pre-organization in solid-state transformations of coordination polymers
IUCrJ, 2015, 2, 188-197
1542776 CIFC20 H8 Ag2 F14 N2 O4C 1 2/c 127.578; 9.267; 21.211
90; 118.142; 90		4780Wright, James S.; Vitórica-Yrezábal, Iñigo J.; Adams, Harry; Thompson, Stephen P.; Hill, Adrian H.; Brammer, Lee
Solvent-vapour-assisted pathways and the role of pre-organization in solid-state transformations of coordination polymers
IUCrJ, 2015, 2, 188-197
1542777 CIFC20 H8 Ag2 F14 N2 O4P -110.782; 11.006; 12.54
71.569; 76.089; 62.229		1241.4Wright, James S.; Vitórica-Yrezábal, Iñigo J.; Adams, Harry; Thompson, Stephen P.; Hill, Adrian H.; Brammer, Lee
Solvent-vapour-assisted pathways and the role of pre-organization in solid-state transformations of coordination polymers
IUCrJ, 2015, 2, 188-197
1542778 CIFC62.275 H42.55 Ag4 F28 N4 O8P -110.6658; 11.2395; 14.325
72.054; 86.608; 83.149		1621.6Wright, James S.; Vitórica-Yrezábal, Iñigo J.; Adams, Harry; Thompson, Stephen P.; Hill, Adrian H.; Brammer, Lee
Solvent-vapour-assisted pathways and the role of pre-organization in solid-state transformations of coordination polymers
IUCrJ, 2015, 2, 188-197
1542779 CIFC54 H42 N2 O8 Zn2C 1 c 124.843; 12.245; 15.7202
90; 109.498; 90		4507.9Nalla, Venkatram; Medishetty, Raghavender; Wang, Yue; Bai, Zhaozhi; Sun, Handong; Wei, Ji.; Vittal, Jagadese J.
Second harmonic generation from the `centrosymmetric' crystals
IUCrJ, 2015, 2, 317-321
1542780 CIFC54 H42 N2 O8 Zn2C 1 c 124.746; 12.2117; 15.6525
90; 109.192; 90		4467.2Nalla, Venkatram; Medishetty, Raghavender; Wang, Yue; Bai, Zhaozhi; Sun, Handong; Wei, Ji.; Vittal, Jagadese J.
Second harmonic generation from the `centrosymmetric' crystals
IUCrJ, 2015, 2, 317-321
1542781 CIFC54 H42 N2 O8 Zn2C 1 c 124.817; 12.241; 15.714
90; 109.39; 90		4503Nalla, Venkatram; Medishetty, Raghavender; Wang, Yue; Bai, Zhaozhi; Sun, Handong; Wei, Ji.; Vittal, Jagadese J.
Second harmonic generation from the `centrosymmetric' crystals
IUCrJ, 2015, 2, 317-321
1542782 CIFC54 H42 N2 O8 Zn2C 1 c 124.638; 12.1718; 15.5632
90; 108.782; 90		4418.7Nalla, Venkatram; Medishetty, Raghavender; Wang, Yue; Bai, Zhaozhi; Sun, Handong; Wei, Ji.; Vittal, Jagadese J.
Second harmonic generation from the `centrosymmetric' crystals
IUCrJ, 2015, 2, 317-321
1542783 CIFC54 H42 N2 O8 Zn2C 1 c 124.525; 12.1433; 15.4964
90; 108.492; 90		4376.8Nalla, Venkatram; Medishetty, Raghavender; Wang, Yue; Bai, Zhaozhi; Sun, Handong; Wei, Ji.; Vittal, Jagadese J.
Second harmonic generation from the `centrosymmetric' crystals
IUCrJ, 2015, 2, 317-321
1542784 CIFC39 H46 N6 O7P 1 c 19.076; 8.9616; 22.501
90; 93.554; 90		1826.6Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542785 CIFC31 H34 N4 O7P 1 21/c 115.831; 9.3122; 20.211
90; 104.415; 90		2885.7Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542786 CIFC27 H30 N2 O9P -19.3506; 10.912; 13.002
76.798; 84.048; 81.58		1274.26Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542787 CIFC27 H30 N2 O8P -19.3202; 10.7538; 12.9869
79.471; 85.133; 82.377		1266Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542788 CIFC29 H26 N2 O9P -19.8334; 10.7098; 13.079
102.815; 95.031; 106.846		1268.3Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542789 CIFC29 H18 N2 O8P -19.806; 10.778; 13.055
102.833; 94.525; 106.943		1271.6Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542790 CIFC30 H22 N3 O7P -19.844; 10.636; 13.071
98.324; 94.601; 107.947		1276.9Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542791 CIFC45 H36 N6 O8P -110.0222; 12.8756; 15.0597
81.685; 83.118; 76.273		1860.6Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542792 CIFC31 H28 N2 O9P -110.1899; 11.6532; 13.0214
97.351; 95.446; 115.237		1367.8Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542793 CIFC31 H28 N2 O8P -110.0381; 11.5707; 13.0194
76.744; 84.502; 65.573		1340.13Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542794 CIFC30 H26 N3 O8P -19.9867; 11.2949; 13.04
79.558; 85.192; 66.082		1322.2Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542795 CIFC39 H30 N4 O7P 1 21/c 118.0656; 11.6584; 16.661
90; 115.565; 90		3165.5Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542796 CIFC27 H20 N2 O7C 1 2/c 121.831; 12.904; 15.876
90; 101.912; 90		4376.1Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542797 CIFC31 H30 N2 O8P -19.8782; 11.5881; 13.041
76.595; 85.792; 67.035		1336.8Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542798 CIFC39 H34 N4 O7P 1 21/c 120.028; 10.5025; 16.5786
90; 108.851; 90		3300.2Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542799 CIFC27 H22 N2 O7P 1 21/c 113.3624; 10.554; 32.5542
90; 95.517; 90		4569.7Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542800 CIFC29 H26 N4 O8P -110.0918; 11.4244; 13.052
98.573; 95.19; 115.078		1327.7Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542801 CIFC25 H18 N4 O7C 1 2/c 121.647; 12.8623; 15.712
90; 101.543; 90		4286.2Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542802 CIFC31 H26 N2 O9P -18.1859; 12.787; 13.173
83.634; 83.848; 73.246		1308.1Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542803 CIFC33 H22 N3 O7P -18.416; 12.297; 13.111
87.1; 84.103; 73.503		1293.8Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542804 CIFC58 H42 N7 O8P -19.9945; 13.4346; 17.822
81.016; 78.335; 86.046		2313.09Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542805 CIFC33 H22 N3 O8P -19.48; 11.2614; 13.5129
104.785; 108.855; 90.687		1312.95Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542806 CIFC33 H22 N3 O7P -14.983; 15.381; 18.142
112.21; 94.99; 94.92		1271.77Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542807 CIFC29 H21 N2 O7 SP -19.8066; 10.4874; 13.0073
97.993; 94.646; 108.15		1247.8Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542808 CIFC69 H50 N6 O14 S6P -112.547; 13.299; 18.49
94.246; 90.204; 98.776		3040.5Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542809 CIFC30 H20 N2 O7 SP -19.974; 11.421; 13.009
78.51; 85.22; 66.39		1330.63Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542810 CIFC90 H63 N6 O14P -112.664; 13.235; 22.191
104.03; 96.59; 104.04		3440.59Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542811 CIFC34 H24 N2 O7P -110.5919; 11.6067; 11.6919
85.133; 72.938; 75.632		1331.01Dubey, Ritesh; Desiraju, Gautam R.
Combinatorial selection of molecular conformations and supramolecular synthons in quercetin cocrystal landscapes: a route to ternary solids
IUCrJ, 2015, 2, 402-408
1542812 CIF
Paper		C12 H19 N3 O3 SP 1 21/n 17.2731; 15.9052; 12.7766
90; 99.291; 90		1458.61Bolla, Geetha; Mittapalli, Sudhir; Nangia, Ashwini
Modularity and three-dimensional isostructurality of novel synthons in sulfonamide‒lactam cocrystals
IUCrJ, 2015, 2, 389-401
1542813 CIF
Paper		C13 H20 N2 O3 SP 1 21/n 17.302; 17.189; 12.2835
90; 106.76; 90		1476.3Bolla, Geetha; Mittapalli, Sudhir; Nangia, Ashwini
Modularity and three-dimensional isostructurality of novel synthons in sulfonamide‒lactam cocrystals
IUCrJ, 2015, 2, 389-401
1542814 CIF
Paper		C12 H17 Cl N2 O3 SP 21 21 217.1564; 13.369; 15.276
90; 90; 90		1461.5Bolla, Geetha; Mittapalli, Sudhir; Nangia, Ashwini
Modularity and three-dimensional isostructurality of novel synthons in sulfonamide‒lactam cocrystals
IUCrJ, 2015, 2, 389-401
1542815 CIF
Paper		C12 H19 N3 O3 SP 21 21 217.0957; 13.128; 15.3425
90; 90; 90		1429.2Bolla, Geetha; Mittapalli, Sudhir; Nangia, Ashwini
Modularity and three-dimensional isostructurality of novel synthons in sulfonamide‒lactam cocrystals
IUCrJ, 2015, 2, 389-401
1542816 CIF
Paper		C12 H17 Br N2 O3 SP 21 21 217.156; 13.538; 15.406
90; 90; 90		1492.5Bolla, Geetha; Mittapalli, Sudhir; Nangia, Ashwini
Modularity and three-dimensional isostructurality of novel synthons in sulfonamide‒lactam cocrystals
IUCrJ, 2015, 2, 389-401
1542817 CIF
Paper		C12 H18 N2 O3 SP 1 21/n 15.3367; 15.9206; 16.07
90; 98.308; 90		1351Bolla, Geetha; Mittapalli, Sudhir; Nangia, Ashwini
Modularity and three-dimensional isostructurality of novel synthons in sulfonamide‒lactam cocrystals
IUCrJ, 2015, 2, 389-401
1542818 CIF
Paper		C12 H17 Cl N2 O3 SP 1 21/c 19.8782; 14.172; 10.8753
90; 112.85; 90		1403Bolla, Geetha; Mittapalli, Sudhir; Nangia, Ashwini
Modularity and three-dimensional isostructurality of novel synthons in sulfonamide‒lactam cocrystals
IUCrJ, 2015, 2, 389-401
1542819 CIF
Paper		C12 H18 N2 O3 SP 21 21 217.07; 12.7624; 14.977
90; 90; 90		1351.4Bolla, Geetha; Mittapalli, Sudhir; Nangia, Ashwini
Modularity and three-dimensional isostructurality of novel synthons in sulfonamide‒lactam cocrystals
IUCrJ, 2015, 2, 389-401
1542820 CIF
Paper		C11 H15 Cl N2 O3 SC 1 2/c 125.701; 6.8096; 19.177
90; 127.4; 90		2666.2Bolla, Geetha; Mittapalli, Sudhir; Nangia, Ashwini
Modularity and three-dimensional isostructurality of novel synthons in sulfonamide‒lactam cocrystals
IUCrJ, 2015, 2, 389-401
1542821 CIF
Paper		C11 H15 Br N2 O3 SC 1 2/c 125.914; 6.8687; 19.202
90; 126.873; 90		2734.2Bolla, Geetha; Mittapalli, Sudhir; Nangia, Ashwini
Modularity and three-dimensional isostructurality of novel synthons in sulfonamide‒lactam cocrystals
IUCrJ, 2015, 2, 389-401
1542822 CIF
Paper		C12 H18 N2 O3 SP -15.21; 8.449; 16.104
82.894; 82.798; 81.772		692Bolla, Geetha; Mittapalli, Sudhir; Nangia, Ashwini
Modularity and three-dimensional isostructurality of novel synthons in sulfonamide‒lactam cocrystals
IUCrJ, 2015, 2, 389-401
1542823 CIF
Paper		C11 H15 Cl N2 O3 SP 1 21/c 110.521; 13.7661; 10.3407
90; 116.31; 90		1342.5Bolla, Geetha; Mittapalli, Sudhir; Nangia, Ashwini
Modularity and three-dimensional isostructurality of novel synthons in sulfonamide‒lactam cocrystals
IUCrJ, 2015, 2, 389-401
1542824 CIF
Paper		C11 H16 N2 O3 SP 21 21 217.1043; 12.7937; 14.0302
90; 90; 90		1275.2Bolla, Geetha; Mittapalli, Sudhir; Nangia, Ashwini
Modularity and three-dimensional isostructurality of novel synthons in sulfonamide‒lactam cocrystals
IUCrJ, 2015, 2, 389-401
1542825 CIFC65 H67 Mn2 N3 O17P 1 21/c 119.6786; 22.7703; 14.8344
90; 104.147; 90		6445.5Bajpai, Alankriti; Mukhopadhyay, Arindam; Krishna, Manchugondanahalli Shivakumar; Govardhan, Savitha; Moorthy, Jarugu Narasimha
A fluorescent paramagnetic Mn metal‒organic framework based on semi-rigid pyrene tetracarboxylic acid: sensing of solvent polarity and explosive nitroaromatics
IUCrJ, 2015, 2, 552-562
1542826 CIFC30 H62P 1 21 128.172; 4.935; 10.375
90; 90.3; 90		1442.4Brooks, Lee; Brunelli, Michela; Pattison, Philip; Jones, Graeme R.; Fitch, Andrew
Crystal structures of eight mono-methyl alkanes (C~26~‒C~32~) <i>via</i> single-crystal and powder diffraction and DFT-D optimization
IUCrJ, 2015, 2, 490-497
1542827 CIFC30 H62P 1 21 118.43381; 7.175975; 11.02071
90; 101.974; 90		1426.1Brooks, Lee; Brunelli, Michela; Pattison, Philip; Jones, Graeme R.; Fitch, Andrew
Crystal structures of eight mono-methyl alkanes (C~26~‒C~32~) <i>via</i> single-crystal and powder diffraction and DFT-D optimization
IUCrJ, 2015, 2, 490-497
1542828 CIFC28 H58P 1 21 116.00237; 7.154313; 12.40169
90; 109.825; 90		1335.67Brooks, Lee; Brunelli, Michela; Pattison, Philip; Jones, Graeme R.; Fitch, Andrew
Crystal structures of eight mono-methyl alkanes (C~26~‒C~32~) <i>via</i> single-crystal and powder diffraction and DFT-D optimization
IUCrJ, 2015, 2, 490-497
1542829 CIFC30 H62P 1 21 116.0129; 7.14458; 14.09635
90; 118.06; 90		1423.14Brooks, Lee; Brunelli, Michela; Pattison, Philip; Jones, Graeme R.; Fitch, Andrew
Crystal structures of eight mono-methyl alkanes (C~26~‒C~32~) <i>via</i> single-crystal and powder diffraction and DFT-D optimization
IUCrJ, 2015, 2, 490-497
1542830 CIFC26 H54P 1 21 121.44393; 4.937406; 12.34557
90; 105.625; 90		1258.81Brooks, Lee; Brunelli, Michela; Pattison, Philip; Jones, Graeme R.; Fitch, Andrew
Crystal structures of eight mono-methyl alkanes (C~26~‒C~32~) <i>via</i> single-crystal and powder diffraction and DFT-D optimization
IUCrJ, 2015, 2, 490-497
1542831 CIFC28 H58P 1 21 123.4884; 4.93921; 12.33521
90; 109.295; 90		1350.68Brooks, Lee; Brunelli, Michela; Pattison, Philip; Jones, Graeme R.; Fitch, Andrew
Crystal structures of eight mono-methyl alkanes (C~26~‒C~32~) <i>via</i> single-crystal and powder diffraction and DFT-D optimization
IUCrJ, 2015, 2, 490-497
1542832 CIFC30 H62P 1 21 125.6203; 4.93638; 12.32668
90; 112.448; 90		1440.84Brooks, Lee; Brunelli, Michela; Pattison, Philip; Jones, Graeme R.; Fitch, Andrew
Crystal structures of eight mono-methyl alkanes (C~26~‒C~32~) <i>via</i> single-crystal and powder diffraction and DFT-D optimization
IUCrJ, 2015, 2, 490-497
1542833 CIFC32 H66P 1 21 127.78145; 4.933812; 12.38987
90; 115.68; 90		1530.52Brooks, Lee; Brunelli, Michela; Pattison, Philip; Jones, Graeme R.; Fitch, Andrew
Crystal structures of eight mono-methyl alkanes (C~26~‒C~32~) <i>via</i> single-crystal and powder diffraction and DFT-D optimization
IUCrJ, 2015, 2, 490-497
1542834 CIFC30 H62P 1 21 128.09291; 4.932501; 10.36893
90; 90.4059; 90		1436.77Brooks, Lee; Brunelli, Michela; Pattison, Philip; Jones, Graeme R.; Fitch, Andrew
Crystal structures of eight mono-methyl alkanes (C~26~‒C~32~) <i>via</i> single-crystal and powder diffraction and DFT-D optimization
IUCrJ, 2015, 2, 490-497
1542835 CIFC11 H12 O4P 1 21/c 111.216; 8.214; 14.073
90; 128.86; 90		1009.6Mishra, Manish Kumar; Mukherjee, Arijit; Ramamurty, Upadrasta; Desiraju, Gautam R.
Crystal chemistry and photomechanical behavior of 3,4-dimethoxycinnamic acid: correlation between maximum yield in the solid-state topochemical reaction and cooperative molecular motion
IUCrJ, 2015, 2, 653-660
1542836 CIFC22 H24 O8P -15.54; 8.259; 11.281
83.61; 83.275; 74.48		492.2Mishra, Manish Kumar; Mukherjee, Arijit; Ramamurty, Upadrasta; Desiraju, Gautam R.
Crystal chemistry and photomechanical behavior of 3,4-dimethoxycinnamic acid: correlation between maximum yield in the solid-state topochemical reaction and cooperative molecular motion
IUCrJ, 2015, 2, 653-660
1542837 CIFC17 H15 B F2 O4C 1 2/c 121.1854; 7.0826; 10.0747
90; 98.208; 90		1496.2Krishna, Gamidi Rama; Devarapalli, Ramesh; Prusty, Rajesh; Liu, Tiandong; Fraser, Cassandra L.; Ramamurty, Upadrasta; Reddy, Chilla Malla
Structure‒mechanical property correlations in mechanochromic luminescent crystals of boron difluoride dibenzoylmethane derivatives
IUCrJ, 2015, 2, 611-619
1542838 CIFC16 H13 B F2 O3P -18.0234; 9.0901; 10.7916
75.514; 80.766; 69.797		712.78Krishna, Gamidi Rama; Devarapalli, Ramesh; Prusty, Rajesh; Liu, Tiandong; Fraser, Cassandra L.; Ramamurty, Upadrasta; Reddy, Chilla Malla
Structure‒mechanical property correlations in mechanochromic luminescent crystals of boron difluoride dibenzoylmethane derivatives
IUCrJ, 2015, 2, 611-619
1542839 CIFC23 H27 B F2 O2C 1 2/c 128.575; 7.0402; 10.3208
90; 102.92; 90		2023.7Krishna, Gamidi Rama; Devarapalli, Ramesh; Prusty, Rajesh; Liu, Tiandong; Fraser, Cassandra L.; Ramamurty, Upadrasta; Reddy, Chilla Malla
Structure‒mechanical property correlations in mechanochromic luminescent crystals of boron difluoride dibenzoylmethane derivatives
IUCrJ, 2015, 2, 611-619
1542840 CIF
HKL		C27 H29 Cl N2 O7P -111.9406; 21.3081; 5.103
92.373; 93.003; 85.308		1291.3Sanphui, Palash; Bolla, Geetha; Nangia, Ashwini; Chernyshev, Vladimir
Acemetacin cocrystals and salts: structure solution from powder X-ray data and form selection of the piperazine salt
IUCrJ, 2014, 1, 136-150
1542841 CIF
HKL		C27 H24 Cl N3 O7P 1 21 111.89; 4.9621; 21.4281
90; 90.663; 90		1264.16Sanphui, Palash; Bolla, Geetha; Nangia, Ashwini; Chernyshev, Vladimir
Acemetacin cocrystals and salts: structure solution from powder X-ray data and form selection of the piperazine salt
IUCrJ, 2014, 1, 136-150
1542842 CIF
HKL		C28 H25 Cl N2 O8P 1 21 116.959; 4.7993; 17.285
90; 113.55; 90		1289.7Sanphui, Palash; Bolla, Geetha; Nangia, Ashwini; Chernyshev, Vladimir
Acemetacin cocrystals and salts: structure solution from powder X-ray data and form selection of the piperazine salt
IUCrJ, 2014, 1, 136-150
1542843 CIF
HKL		C27 H24 Cl N3 O7P 1 21 121.7202; 5.0077; 11.8457
90; 93.954; 90		1285.4Sanphui, Palash; Bolla, Geetha; Nangia, Ashwini; Chernyshev, Vladimir
Acemetacin cocrystals and salts: structure solution from powder X-ray data and form selection of the piperazine salt
IUCrJ, 2014, 1, 136-150
1542844 CIF
HKL		C46 H46 Cl2 N4 O12P -17.3994; 25.6703; 5.8254
90.162; 98.598; 98.315		1082.2Sanphui, Palash; Bolla, Geetha; Nangia, Ashwini; Chernyshev, Vladimir
Acemetacin cocrystals and salts: structure solution from powder X-ray data and form selection of the piperazine salt
IUCrJ, 2014, 1, 136-150
1542845 CIF
Paper		C12 H9 Cl4 N OP -17.0243; 9.4152; 10.928
82.75; 79.147; 76.703		688.2Mukherjee, Arijit; Dixit, Karuna; Sarma, Siddhartha P.; Desiraju, Gautam R.
Aniline‒phenol recognition: from solution through supramolecular synthons to cocrystals
IUCrJ, 2014, 1, 228-239
1542846 CIF
Paper		C12 H9 Cl4 N OP 1 21/c 16.9676; 21.336; 9.1861
90; 99.139; 90		1348.3Mukherjee, Arijit; Dixit, Karuna; Sarma, Siddhartha P.; Desiraju, Gautam R.
Aniline‒phenol recognition: from solution through supramolecular synthons to cocrystals
IUCrJ, 2014, 1, 228-239
1542847 CIF
Paper		C12 H8 Cl5 N OP 1 21 17.0572; 15.4665; 13.2112
90; 98.98; 90		1424.3Mukherjee, Arijit; Dixit, Karuna; Sarma, Siddhartha P.; Desiraju, Gautam R.
Aniline‒phenol recognition: from solution through supramolecular synthons to cocrystals
IUCrJ, 2014, 1, 228-239
1542848 CIF
Paper		C12 H8 Cl5 N OI 1 2/a 122.638; 7.2553; 18.013
90; 90.767; 90		2958.3Mukherjee, Arijit; Dixit, Karuna; Sarma, Siddhartha P.; Desiraju, Gautam R.
Aniline‒phenol recognition: from solution through supramolecular synthons to cocrystals
IUCrJ, 2014, 1, 228-239
1542849 CIF
Paper		C12 H7 Cl5 N OP -17.0681; 9.5008; 11.4095
85.402; 83.071; 71.211		719.36Mukherjee, Arijit; Dixit, Karuna; Sarma, Siddhartha P.; Desiraju, Gautam R.
Aniline‒phenol recognition: from solution through supramolecular synthons to cocrystals
IUCrJ, 2014, 1, 228-239
1542850 CIF
Paper		C12 H9 Br Cl3 N OP -17.0562; 9.373; 11.11
83.358; 79.173; 76.588		700Mukherjee, Arijit; Dixit, Karuna; Sarma, Siddhartha P.; Desiraju, Gautam R.
Aniline‒phenol recognition: from solution through supramolecular synthons to cocrystals
IUCrJ, 2014, 1, 228-239
1542851 CIF
Paper		C12 H9 Cl3 I N OP -17.083; 9.354; 11.456
84.118; 79.555; 76.553		724.5Mukherjee, Arijit; Dixit, Karuna; Sarma, Siddhartha P.; Desiraju, Gautam R.
Aniline‒phenol recognition: from solution through supramolecular synthons to cocrystals
IUCrJ, 2014, 1, 228-239
1542852 CIF
Paper		C12 H7 Cl4 I N OP -17.107; 9.498; 11.827
85.425; 81.804; 71.851		750.4Mukherjee, Arijit; Dixit, Karuna; Sarma, Siddhartha P.; Desiraju, Gautam R.
Aniline‒phenol recognition: from solution through supramolecular synthons to cocrystals
IUCrJ, 2014, 1, 228-239
1542853 CIF
Paper		C12 H9 Cl4 N OP 1 21/c 17.851; 11.865; 14.891
90; 106.79; 90		1328Mukherjee, Arijit; Dixit, Karuna; Sarma, Siddhartha P.; Desiraju, Gautam R.
Aniline‒phenol recognition: from solution through supramolecular synthons to cocrystals
IUCrJ, 2014, 1, 228-239
1542854 CIF
Paper		C12 H9 Cl4 N OP -17.208; 9.333; 10.884
99.035; 107.107; 102.219		664.8Mukherjee, Arijit; Dixit, Karuna; Sarma, Siddhartha P.; Desiraju, Gautam R.
Aniline‒phenol recognition: from solution through supramolecular synthons to cocrystals
IUCrJ, 2014, 1, 228-239
1542855 CIF
Paper		C12 H8 Cl5 N OP -17.1441; 9.3027; 11.8726
77.966; 74.889; 77.979		735.06Mukherjee, Arijit; Dixit, Karuna; Sarma, Siddhartha P.; Desiraju, Gautam R.
Aniline‒phenol recognition: from solution through supramolecular synthons to cocrystals
IUCrJ, 2014, 1, 228-239
1542856 CIF
Paper		C12 H8 Cl5 N OP -17.206; 9.2558; 11.3203
99.693; 99.616; 101.387		713.76Mukherjee, Arijit; Dixit, Karuna; Sarma, Siddhartha P.; Desiraju, Gautam R.
Aniline‒phenol recognition: from solution through supramolecular synthons to cocrystals
IUCrJ, 2014, 1, 228-239
1542857 CIF
Paper		C14 H14 N2 O4C 1 2/c 124.698; 5.1072; 20.6682
90; 99.673; 90		2570Mukherjee, Arijit; Dixit, Karuna; Sarma, Siddhartha P.; Desiraju, Gautam R.
Aniline‒phenol recognition: from solution through supramolecular synthons to cocrystals
IUCrJ, 2014, 1, 228-239
1542858 CIF
Paper		C14 H14 N2 O4P 1 21/c 112.41; 5.124; 20.06
90; 92.901; 90		1274Mukherjee, Arijit; Dixit, Karuna; Sarma, Siddhartha P.; Desiraju, Gautam R.
Aniline‒phenol recognition: from solution through supramolecular synthons to cocrystals
IUCrJ, 2014, 1, 228-239
1542859 CIF
Paper		C14 H14 N2 O5P -14.76; 11.501; 12.539
77.081; 86.975; 81.302		661.2Mukherjee, Arijit; Dixit, Karuna; Sarma, Siddhartha P.; Desiraju, Gautam R.
Aniline‒phenol recognition: from solution through supramolecular synthons to cocrystals
IUCrJ, 2014, 1, 228-239
1542860 CIFC44 H40 Ag2 N12 O8P b c m12.6641; 26.23; 35.269
90; 90; 90		11716Jiang, Ji-Jun; He, Jian-Rong; Lü, Xing-Qiang; Wang, Da-Wei; Li, Guo-Bi; Su, Cheng-Yong
Structural disorder and transformation in crystal growth: direct observation of ring-opening isomerization in a metal‒organic solid solution
IUCrJ, 2014, 1, 318-327
1542861 CIFC24 H20 Ag F3 N6 O11I b a m6.4005; 26.426; 35.016
90; 90; 90		5922.6Jiang, Ji-Jun; He, Jian-Rong; Lü, Xing-Qiang; Wang, Da-Wei; Li, Guo-Bi; Su, Cheng-Yong
Structural disorder and transformation in crystal growth: direct observation of ring-opening isomerization in a metal‒organic solid solution
IUCrJ, 2014, 1, 318-327
1543051 CIF
HKL		C6 H12 O6P 21/n11.58792; 12.2101; 5.25364
90; 90.5649; 90		743.3Bekö, Sándor L.; Alig, Edith; Schmidt, Martin U.; van de Streek, Jacco
On the correlation between hydrogen bonding and melting points in the inositols
IUCrJ, 2013, 1, 61-73
1543052 CIF
HKL		C6 H12 O6P b c a14.1313; 11.0757; 9.36191
90; 90; 90		1465.27Bekö, Sándor L.; Alig, Edith; Schmidt, Martin U.; van de Streek, Jacco
On the correlation between hydrogen bonding and melting points in the inositols
IUCrJ, 2013, 1, 61-73
1543053 CIF
HKL		C6 H12 O6P 21 21 2114.01476; 11.03782; 9.33193
90; 90; 90		1443.58Bekö, Sándor L.; Alig, Edith; Schmidt, Martin U.; van de Streek, Jacco
On the correlation between hydrogen bonding and melting points in the inositols
IUCrJ, 2013, 1, 61-73
1543054 CIF
HKL		C6 H12 O6P c a 2111.8577; 7.01486; 8.68032
90; 90; 90		722.03Bekö, Sándor L.; Alig, Edith; Schmidt, Martin U.; van de Streek, Jacco
On the correlation between hydrogen bonding and melting points in the inositols
IUCrJ, 2013, 1, 61-73
1543055 CIF
HKL		C6 H12 O6P 216.86637; 9.12272; 6.21914
90; 106.596; 90		373.338Bekö, Sándor L.; Alig, Edith; Schmidt, Martin U.; van de Streek, Jacco
On the correlation between hydrogen bonding and melting points in the inositols
IUCrJ, 2013, 1, 61-73
1543056 CIF
HKL		C6 H12 O6P 21/c10.1435; 8.1542; 8.6239
90; 92.3556; 90		712.7Bekö, Sándor L.; Alig, Edith; Schmidt, Martin U.; van de Streek, Jacco
On the correlation between hydrogen bonding and melting points in the inositols
IUCrJ, 2013, 1, 61-73
1543220 CIFC12 H8 Br N O2P 1 21 19.991; 14.1075; 15.656
90; 102; 90		2158.5Burgener, Matthias; Aboulfadl, Hanane; Labat, Gaël Charles; Bonin, Michel; Sommer, Martin; Sankolli, Ravish; Wübbenhorst, Michael; Hulliger, Jürg
Peculiar orientational disorder in 4-bromo-4'-nitrobiphenyl (BNBP) and 4-bromo-4'-cyanobiphenyl (BCNBP) leading to bipolar crystals
IUCrJ, 2016, 3, 219-225
1543221 CIFC12 H8 Br N O2P 1 21 19.971; 14.1307; 15.65
90; 101.71; 90		2159.1Burgener, Matthias; Aboulfadl, Hanane; Labat, Gaël Charles; Bonin, Michel; Sommer, Martin; Sankolli, Ravish; Wübbenhorst, Michael; Hulliger, Jürg
Peculiar orientational disorder in 4-bromo-4'-nitrobiphenyl (BNBP) and 4-bromo-4'-cyanobiphenyl (BCNBP) leading to bipolar crystals
IUCrJ, 2016, 3, 219-225
1543222 CIFC13 H8 Br NP 1 21 19.6028; 14.6523; 15.5726
90; 97.34; 90		2173.2Burgener, Matthias; Aboulfadl, Hanane; Labat, Gaël Charles; Bonin, Michel; Sommer, Martin; Sankolli, Ravish; Wübbenhorst, Michael; Hulliger, Jürg
Peculiar orientational disorder in 4-bromo-4'-nitrobiphenyl (BNBP) and 4-bromo-4'-cyanobiphenyl (BCNBP) leading to bipolar crystals
IUCrJ, 2016, 3, 219-225
1543223 CIFC13 H8 Br NP 1 21 19.5964; 14.6438; 15.5585
90; 97.429; 90		2168Burgener, Matthias; Aboulfadl, Hanane; Labat, Gaël Charles; Bonin, Michel; Sommer, Martin; Sankolli, Ravish; Wübbenhorst, Michael; Hulliger, Jürg
Peculiar orientational disorder in 4-bromo-4'-nitrobiphenyl (BNBP) and 4-bromo-4'-cyanobiphenyl (BCNBP) leading to bipolar crystals
IUCrJ, 2016, 3, 219-225
1543412 CIF
Paper		C45 H32 Cu2 I2 N4 S1.95I 4/m c m13.2563; 13.2563; 27.5616
90; 90; 90		4843.39Kitagawa, Hakuba; Ohtsu, Hiroyoshi; Cruz-Cabeza, Aurora J.; Kawano, Masaki
Isolation and evolution of labile sulfur allotropesviakinetic encapsulation in interactive porous networks
IUCrJ, 2016, 3
1543413 CIFC45 H32 Cu1.88 I1.88 N4 S3P -426.7176; 26.7176; 7.1942
90; 90; 90		5135.4Kitagawa, Hakuba; Ohtsu, Hiroyoshi; Cruz-Cabeza, Aurora J.; Kawano, Masaki
Isolation and evolution of labile sulfur allotropesviakinetic encapsulation in interactive porous networks
IUCrJ, 2016, 3
1543414 CIFC45 H32 Cu1.88 I1.88 N4 S3.01I -426.8758; 26.8758; 7.1689
90; 90; 90		5178.16Kitagawa, Hakuba; Ohtsu, Hiroyoshi; Cruz-Cabeza, Aurora J.; Kawano, Masaki
Isolation and evolution of labile sulfur allotropesviakinetic encapsulation in interactive porous networks
IUCrJ, 2016, 3
1543415 CIFC45 H32 Cu1.88 I1.88 N4 S3.01I -426.8987; 26.8987; 7.1788
90; 90; 90		5194.15Kitagawa, Hakuba; Ohtsu, Hiroyoshi; Cruz-Cabeza, Aurora J.; Kawano, Masaki
Isolation and evolution of labile sulfur allotropesviakinetic encapsulation in interactive porous networks
IUCrJ, 2016, 3
1543416 CIFC45 H32 Cu1.85 I1.85 N4 S3I -426.8664; 26.8664; 7.1717
90; 90; 90		5176.56Kitagawa, Hakuba; Ohtsu, Hiroyoshi; Cruz-Cabeza, Aurora J.; Kawano, Masaki
Isolation and evolution of labile sulfur allotropesviakinetic encapsulation in interactive porous networks
IUCrJ, 2016, 3
1543858 CIF
Paper		C4 H9 N O2I 1 2 19.6246; 5.2079; 43.103
90; 100.201; 90		2126.3Görbitz, Carl Henrik; Karen, Pavel; Dušek, Michal; Petříček, Václav
An exceptional series of phase transitions in hydrophobic amino acids with linear side chains
IUCrJ, 2016, 3
1543859 CIFC4 H9 N O2P 1 21 19.6176; 5.2126; 21.768
90; 101.123; 90		1070.79Görbitz, Carl Henrik; Karen, Pavel; Dušek, Michal; Petříček, Václav
An exceptional series of phase transitions in hydrophobic amino acids with linear side chains
IUCrJ, 2016, 3
1543860 CIFC4 H9 N O2P 1 21 19.6132; 5.2239; 22.4134
90; 101.453; 90		1103.15Görbitz, Carl Henrik; Karen, Pavel; Dušek, Michal; Petříček, Václav
An exceptional series of phase transitions in hydrophobic amino acids with linear side chains
IUCrJ, 2016, 3
1543861 CIFC4 H9 N O2C 1 2 19.6233; 5.2274; 22.877
90; 100.764; 90		1130.6Görbitz, Carl Henrik; Karen, Pavel; Dušek, Michal; Petříček, Václav
An exceptional series of phase transitions in hydrophobic amino acids with linear side chains
IUCrJ, 2016, 3
1543862 CIFC5 H11 N O2P 1 21 19.6123; 5.1222; 13.183
90; 98.609; 90		641.77Görbitz, Carl Henrik; Karen, Pavel; Dušek, Michal; Petříček, Václav
An exceptional series of phase transitions in hydrophobic amino acids with linear side chains
IUCrJ, 2016, 3
1543863 CIFC5 H11 N O2P 1 21 19.604; 5.1222; 13.352
90; 97.137; 90		651.7Görbitz, Carl Henrik; Karen, Pavel; Dušek, Michal; Petříček, Václav
An exceptional series of phase transitions in hydrophobic amino acids with linear side chains
IUCrJ, 2016, 3
1543864 CIFC5 H11 N O2I 1 2 19.5868; 5.156; 27.477
90; 93.203; 90		1356.1Görbitz, Carl Henrik; Karen, Pavel; Dušek, Michal; Petříček, Václav
An exceptional series of phase transitions in hydrophobic amino acids with linear side chains
IUCrJ, 2016, 3
1543865 CIFC5 H11 N O2I 1 2 19.5855; 5.1752; 27.959
90; 92.057; 90		1386.1Görbitz, Carl Henrik; Karen, Pavel; Dušek, Michal; Petříček, Václav
An exceptional series of phase transitions in hydrophobic amino acids with linear side chains
IUCrJ, 2016, 3
1543866 CIFC5 H11 N O2C 1 2 19.589; 5.2054; 14.698
90; 104.77; 90		709.4Görbitz, Carl Henrik; Karen, Pavel; Dušek, Michal; Petříček, Václav
An exceptional series of phase transitions in hydrophobic amino acids with linear side chains
IUCrJ, 2016, 3
1543867 CIFC6 H13 N O2C 1 2 128.516; 5.2346; 32.233
90; 116.25; 90		4315.2Görbitz, Carl Henrik; Karen, Pavel; Dušek, Michal; Petříček, Václav
An exceptional series of phase transitions in hydrophobic amino acids with linear side chains
IUCrJ, 2016, 3
1543868 CIFC6 H13 N O2C 1 2 19.5327; 5.2545; 14.959
90; 97.628; 90		742.66Görbitz, Carl Henrik; Karen, Pavel; Dušek, Michal; Petříček, Václav
An exceptional series of phase transitions in hydrophobic amino acids with linear side chains
IUCrJ, 2016, 3
1543869 CIFC6 H13 N O2C 1 2 19.5633; 5.2287; 15.674
90; 93.695; 90		782.1Görbitz, Carl Henrik; Karen, Pavel; Dušek, Michal; Petříček, Václav
An exceptional series of phase transitions in hydrophobic amino acids with linear side chains
IUCrJ, 2016, 3
1543870 CIFC6 H13 N O2C 1 2 19.6033; 5.2223; 15.983
90; 90.916; 90		801.5Görbitz, Carl Henrik; Karen, Pavel; Dušek, Michal; Petříček, Václav
An exceptional series of phase transitions in hydrophobic amino acids with linear side chains
IUCrJ, 2016, 3
1543871 CIFC6 H13 N O2C 1 2 19.648; 5.252; 16.561
90; 103.11; 90		817.3Görbitz, Carl Henrik; Karen, Pavel; Dušek, Michal; Petříček, Václav
An exceptional series of phase transitions in hydrophobic amino acids with linear side chains
IUCrJ, 2016, 3
1543872 CIFC5 H11 N O2 SP 1 21 19.5118; 5.1936; 15.3419
90; 97.635; 90		751.18Görbitz, Carl Henrik; Karen, Pavel; Dušek, Michal; Petříček, Václav
An exceptional series of phase transitions in hydrophobic amino acids with linear side chains
IUCrJ, 2016, 3
1543873 CIFC5 H11 N O2 SP 1 21 19.5473; 5.183; 15.583
90; 94.98; 90		768.19Görbitz, Carl Henrik; Karen, Pavel; Dušek, Michal; Petříček, Václav
An exceptional series of phase transitions in hydrophobic amino acids with linear side chains
IUCrJ, 2016, 3
1543874 CIFC5 H11 N O2 SP 1 21 19.588; 5.203; 16.101
90; 99.869; 90		791.3Görbitz, Carl Henrik; Karen, Pavel; Dušek, Michal; Petříček, Václav
An exceptional series of phase transitions in hydrophobic amino acids with linear side chains
IUCrJ, 2016, 3
1543899 CIFCr2 Cu O4I 41/a m d :26.0287; 6.0287; 7.7803
90; 90; 90		282.777Tarantino, Serena C.; Giannini, Mattia; Carpenter, Michael A.; Zema, Michele
Cooperative Jahn‒Teller effect and the role of strain in the tetragonal-to-cubic phase transition in Mg<i>~x~</i>Cu~1{ηskip0.16667em~{-}{ηskip0.16667em}<i>x</i>}Cr~2~O~4~
IUCrJ, 2016, 3
1543900 CIFCr2 Mg O4F d -3 m :28.3288; 8.3288; 8.3288
90; 90; 90		577.76Tarantino, Serena C.; Giannini, Mattia; Carpenter, Michael A.; Zema, Michele
Cooperative Jahn‒Teller effect and the role of strain in the tetragonal-to-cubic phase transition in Mg<i>~x~</i>Cu~1{ηskip0.16667em~{-}{ηskip0.16667em}<i>x</i>}Cr~2~O~4~
IUCrJ, 2016, 3
1543918 CIFC24 H42 Au3 N9C 1 2/c 125.058; 14.038; 18.102
90; 97.313; 90		6316Woodall, Christopher H.; Christensen, Jeppe; Skelton, Jonathan M.; Hatcher, Lauren E.; Parlett, Andrew; Raithby, Paul R.; Walsh, Aron; Parker, Stephen C.; Beavers, Christine M.; Teat, Simon J.; Intissar, Mourad; Reber, Christian; Allan, David R.
Observation of a re-entrant phase transition in the molecular complex tris(μ~2~-3,5-diisopropyl-1,2,4-triazolato-κ^2^<i>N</i>^1^:<i>N</i>^2^)trigold(I) under high pressure
IUCrJ, 2016, 3
1543919 CIFC24 H42 Au3 N9C 1 2/c 124.7872; 13.8653; 17.7857
90; 97.493; 90		6060.4Woodall, Christopher H.; Christensen, Jeppe; Skelton, Jonathan M.; Hatcher, Lauren E.; Parlett, Andrew; Raithby, Paul R.; Walsh, Aron; Parker, Stephen C.; Beavers, Christine M.; Teat, Simon J.; Intissar, Mourad; Reber, Christian; Allan, David R.
Observation of a re-entrant phase transition in the molecular complex tris(μ~2~-3,5-diisopropyl-1,2,4-triazolato-κ^2^<i>N</i>^1^:<i>N</i>^2^)trigold(I) under high pressure
IUCrJ, 2016, 3
1543920 CIFC24 H42 Au3 N9C 1 2/c 124.641; 13.7018; 17.5317
90; 97.572; 90		5867.5Woodall, Christopher H.; Christensen, Jeppe; Skelton, Jonathan M.; Hatcher, Lauren E.; Parlett, Andrew; Raithby, Paul R.; Walsh, Aron; Parker, Stephen C.; Beavers, Christine M.; Teat, Simon J.; Intissar, Mourad; Reber, Christian; Allan, David R.
Observation of a re-entrant phase transition in the molecular complex tris(μ~2~-3,5-diisopropyl-1,2,4-triazolato-κ^2^<i>N</i>^1^:<i>N</i>^2^)trigold(I) under high pressure
IUCrJ, 2016, 3
1543921 CIFC24 H42 Au3 N9C 1 2/c 124.29; 13.584; 17.379
90; 98.51; 90		5671Woodall, Christopher H.; Christensen, Jeppe; Skelton, Jonathan M.; Hatcher, Lauren E.; Parlett, Andrew; Raithby, Paul R.; Walsh, Aron; Parker, Stephen C.; Beavers, Christine M.; Teat, Simon J.; Intissar, Mourad; Reber, Christian; Allan, David R.
Observation of a re-entrant phase transition in the molecular complex tris(μ~2~-3,5-diisopropyl-1,2,4-triazolato-κ^2^<i>N</i>^1^:<i>N</i>^2^)trigold(I) under high pressure
IUCrJ, 2016, 3
1543922 CIFC24 H42 Au3 N9C 1 2/c 124.215; 13.516; 17.266
90; 98.7; 90		5586Woodall, Christopher H.; Christensen, Jeppe; Skelton, Jonathan M.; Hatcher, Lauren E.; Parlett, Andrew; Raithby, Paul R.; Walsh, Aron; Parker, Stephen C.; Beavers, Christine M.; Teat, Simon J.; Intissar, Mourad; Reber, Christian; Allan, David R.
Observation of a re-entrant phase transition in the molecular complex tris(μ~2~-3,5-diisopropyl-1,2,4-triazolato-κ^2^<i>N</i>^1^:<i>N</i>^2^)trigold(I) under high pressure
IUCrJ, 2016, 3
1543923 CIFC24 H42 Au3 N9P 1 21/n 123.765; 13.396; 16.789
90; 99.58; 90		5270.3Woodall, Christopher H.; Christensen, Jeppe; Skelton, Jonathan M.; Hatcher, Lauren E.; Parlett, Andrew; Raithby, Paul R.; Walsh, Aron; Parker, Stephen C.; Beavers, Christine M.; Teat, Simon J.; Intissar, Mourad; Reber, Christian; Allan, David R.
Observation of a re-entrant phase transition in the molecular complex tris(μ~2~-3,5-diisopropyl-1,2,4-triazolato-κ^2^<i>N</i>^1^:<i>N</i>^2^)trigold(I) under high pressure
IUCrJ, 2016, 3
1543924 CIFC24 H42 Au3 N9P 1 21/c 126.529; 13.396; 31.094
90; 110.11; 90		10377Woodall, Christopher H.; Christensen, Jeppe; Skelton, Jonathan M.; Hatcher, Lauren E.; Parlett, Andrew; Raithby, Paul R.; Walsh, Aron; Parker, Stephen C.; Beavers, Christine M.; Teat, Simon J.; Intissar, Mourad; Reber, Christian; Allan, David R.
Observation of a re-entrant phase transition in the molecular complex tris(μ~2~-3,5-diisopropyl-1,2,4-triazolato-κ^2^<i>N</i>^1^:<i>N</i>^2^)trigold(I) under high pressure
IUCrJ, 2016, 3
1543925 CIFC24 H42 Au3 N9C 1 2/c 137.163; 13.417; 30.421
90; 88.48; 90		15163Woodall, Christopher H.; Christensen, Jeppe; Skelton, Jonathan M.; Hatcher, Lauren E.; Parlett, Andrew; Raithby, Paul R.; Walsh, Aron; Parker, Stephen C.; Beavers, Christine M.; Teat, Simon J.; Intissar, Mourad; Reber, Christian; Allan, David R.
Observation of a re-entrant phase transition in the molecular complex tris(μ~2~-3,5-diisopropyl-1,2,4-triazolato-κ^2^<i>N</i>^1^:<i>N</i>^2^)trigold(I) under high pressure
IUCrJ, 2016, 3
1543926 CIFC48 H83 Au6 N18P 1 21/n 123.3975; 13.301; 16.1373
90; 99.901; 90		4947.3Woodall, Christopher H.; Christensen, Jeppe; Skelton, Jonathan M.; Hatcher, Lauren E.; Parlett, Andrew; Raithby, Paul R.; Walsh, Aron; Parker, Stephen C.; Beavers, Christine M.; Teat, Simon J.; Intissar, Mourad; Reber, Christian; Allan, David R.
Observation of a re-entrant phase transition in the molecular complex tris(μ~2~-3,5-diisopropyl-1,2,4-triazolato-κ^2^<i>N</i>^1^:<i>N</i>^2^)trigold(I) under high pressure
IUCrJ, 2016, 3
1543927 CIFC24 H42 Au3 N9C 1 2/c 124.316; 14.341; 20.951
90; 121.105; 90		6256Woodall, Christopher H.; Christensen, Jeppe; Skelton, Jonathan M.; Hatcher, Lauren E.; Parlett, Andrew; Raithby, Paul R.; Walsh, Aron; Parker, Stephen C.; Beavers, Christine M.; Teat, Simon J.; Intissar, Mourad; Reber, Christian; Allan, David R.
Observation of a re-entrant phase transition in the molecular complex tris(μ~2~-3,5-diisopropyl-1,2,4-triazolato-κ^2^<i>N</i>^1^:<i>N</i>^2^)trigold(I) under high pressure
IUCrJ, 2016, 3
1543928 CIFC24 H42 Au3 N9C 1 2/c 123.7794; 14.0552; 20.087
90; 121.333; 90		5734.5Woodall, Christopher H.; Christensen, Jeppe; Skelton, Jonathan M.; Hatcher, Lauren E.; Parlett, Andrew; Raithby, Paul R.; Walsh, Aron; Parker, Stephen C.; Beavers, Christine M.; Teat, Simon J.; Intissar, Mourad; Reber, Christian; Allan, David R.
Observation of a re-entrant phase transition in the molecular complex tris(μ~2~-3,5-diisopropyl-1,2,4-triazolato-κ^2^<i>N</i>^1^:<i>N</i>^2^)trigold(I) under high pressure
IUCrJ, 2016, 3
1543929 CIFC24 H42 Au3 N9C 1 2/c 123.6575; 13.9552; 19.838
90; 121.445; 90		5587.6Woodall, Christopher H.; Christensen, Jeppe; Skelton, Jonathan M.; Hatcher, Lauren E.; Parlett, Andrew; Raithby, Paul R.; Walsh, Aron; Parker, Stephen C.; Beavers, Christine M.; Teat, Simon J.; Intissar, Mourad; Reber, Christian; Allan, David R.
Observation of a re-entrant phase transition in the molecular complex tris(μ~2~-3,5-diisopropyl-1,2,4-triazolato-κ^2^<i>N</i>^1^:<i>N</i>^2^)trigold(I) under high pressure
IUCrJ, 2016, 3
1543930 CIFC24 H42 Au3 N9C 1 2/c 123.5723; 13.8758; 19.647
90; 121.589; 90		5474Woodall, Christopher H.; Christensen, Jeppe; Skelton, Jonathan M.; Hatcher, Lauren E.; Parlett, Andrew; Raithby, Paul R.; Walsh, Aron; Parker, Stephen C.; Beavers, Christine M.; Teat, Simon J.; Intissar, Mourad; Reber, Christian; Allan, David R.
Observation of a re-entrant phase transition in the molecular complex tris(μ~2~-3,5-diisopropyl-1,2,4-triazolato-κ^2^<i>N</i>^1^:<i>N</i>^2^)trigold(I) under high pressure
IUCrJ, 2016, 3
1543931 CIFC24 H42 Au3 N9C 1 2/c 123.4383; 13.7533; 19.341
90; 121.812; 90		5298.1Woodall, Christopher H.; Christensen, Jeppe; Skelton, Jonathan M.; Hatcher, Lauren E.; Parlett, Andrew; Raithby, Paul R.; Walsh, Aron; Parker, Stephen C.; Beavers, Christine M.; Teat, Simon J.; Intissar, Mourad; Reber, Christian; Allan, David R.
Observation of a re-entrant phase transition in the molecular complex tris(μ~2~-3,5-diisopropyl-1,2,4-triazolato-κ^2^<i>N</i>^1^:<i>N</i>^2^)trigold(I) under high pressure
IUCrJ, 2016, 3
1543932 CIFC24 H42 Au3 N9C 1 2/c 123.4449; 13.6963; 19.285
90; 121.92; 90		5256.2Woodall, Christopher H.; Christensen, Jeppe; Skelton, Jonathan M.; Hatcher, Lauren E.; Parlett, Andrew; Raithby, Paul R.; Walsh, Aron; Parker, Stephen C.; Beavers, Christine M.; Teat, Simon J.; Intissar, Mourad; Reber, Christian; Allan, David R.
Observation of a re-entrant phase transition in the molecular complex tris(μ~2~-3,5-diisopropyl-1,2,4-triazolato-κ^2^<i>N</i>^1^:<i>N</i>^2^)trigold(I) under high pressure
IUCrJ, 2016, 3
1543933 CIFC24 H42 Au3 N9C 1 2/c 123.364; 13.6258; 19.112
90; 122.08; 90		5155.3Woodall, Christopher H.; Christensen, Jeppe; Skelton, Jonathan M.; Hatcher, Lauren E.; Parlett, Andrew; Raithby, Paul R.; Walsh, Aron; Parker, Stephen C.; Beavers, Christine M.; Teat, Simon J.; Intissar, Mourad; Reber, Christian; Allan, David R.
Observation of a re-entrant phase transition in the molecular complex tris(μ~2~-3,5-diisopropyl-1,2,4-triazolato-κ^2^<i>N</i>^1^:<i>N</i>^2^)trigold(I) under high pressure
IUCrJ, 2016, 3
1543934 CIFC24 H42 Au3 N9C 1 2/c 123.3195; 13.5632; 18.951
90; 122.188; 90		5072.7Woodall, Christopher H.; Christensen, Jeppe; Skelton, Jonathan M.; Hatcher, Lauren E.; Parlett, Andrew; Raithby, Paul R.; Walsh, Aron; Parker, Stephen C.; Beavers, Christine M.; Teat, Simon J.; Intissar, Mourad; Reber, Christian; Allan, David R.
Observation of a re-entrant phase transition in the molecular complex tris(μ~2~-3,5-diisopropyl-1,2,4-triazolato-κ^2^<i>N</i>^1^:<i>N</i>^2^)trigold(I) under high pressure
IUCrJ, 2016, 3
1544208 CIFC20 H24R -3 :H15.97714; 15.97714; 5.581157
90; 90; 120		1233.82Maynard-Casely, H.E.; Hodyss, R.; Cable, M.L.; Vu, T.H.; Rahm, M.
A co-crystal between benzene and ethane, an potential evaporite material for Saturn's moon Titan
IuCrJ, 2016, 3, 192-199
1544300 CIFC12 H8 N2F d d d :29.2584; 12.936; 15.764
90; 90; 90		1888Bajpai, Alankriti; Scott, Hayley S.; Pham, Tony; Chen, Kai-Jie; Space, Brian; Lusi, Matteo; Perry, Miranda L.; Zaworotko, Michael J.
Towards an understanding of the propensity for crystalline hydrate formation by molecular compounds
IUCrJ, 2016, 3
1544301 CIFC26 H18 N2P 1 21/c 122.1029; 5.6277; 7.5548
90; 99.707; 90		926.28Bajpai, Alankriti; Scott, Hayley S.; Pham, Tony; Chen, Kai-Jie; Space, Brian; Lusi, Matteo; Perry, Miranda L.; Zaworotko, Michael J.
Towards an understanding of the propensity for crystalline hydrate formation by molecular compounds
IUCrJ, 2016, 3
1544302 CIFC20 H12 N2P n a 2117.7436; 10.851; 7.5217
90; 90; 90		1448.2Bajpai, Alankriti; Scott, Hayley S.; Pham, Tony; Chen, Kai-Jie; Space, Brian; Lusi, Matteo; Perry, Miranda L.; Zaworotko, Michael J.
Towards an understanding of the propensity for crystalline hydrate formation by molecular compounds
IUCrJ, 2016, 3
1544303 CIFC20 H16 N2 O2P 1 21/c 114.957; 4.8702; 11.199
90; 103.719; 90		792.5Bajpai, Alankriti; Scott, Hayley S.; Pham, Tony; Chen, Kai-Jie; Space, Brian; Lusi, Matteo; Perry, Miranda L.; Zaworotko, Michael J.
Towards an understanding of the propensity for crystalline hydrate formation by molecular compounds
IUCrJ, 2016, 3
1544304 CIFC18 H22 N4 O4P -17.7923; 7.9651; 8.4455
102.627; 95.961; 114.174		455.51Bajpai, Alankriti; Scott, Hayley S.; Pham, Tony; Chen, Kai-Jie; Space, Brian; Lusi, Matteo; Perry, Miranda L.; Zaworotko, Michael J.
Towards an understanding of the propensity for crystalline hydrate formation by molecular compounds
IUCrJ, 2016, 3
1544305 CIFC20 H20 N2 O0P n a 2121.105; 6.5848; 11.241
90; 90; 90		1562.2Bajpai, Alankriti; Scott, Hayley S.; Pham, Tony; Chen, Kai-Jie; Space, Brian; Lusi, Matteo; Perry, Miranda L.; Zaworotko, Michael J.
Towards an understanding of the propensity for crystalline hydrate formation by molecular compounds
IUCrJ, 2016, 3
1544306 CIFC16 H16 N2 O2P 1 21/c 17.4431; 3.9111; 22.7679
90; 99.239; 90		654.19Bajpai, Alankriti; Scott, Hayley S.; Pham, Tony; Chen, Kai-Jie; Space, Brian; Lusi, Matteo; Perry, Miranda L.; Zaworotko, Michael J.
Towards an understanding of the propensity for crystalline hydrate formation by molecular compounds
IUCrJ, 2016, 3
1544307 CIFC12 H12 N9 O2.75C 1 2/c 138.9915; 6.9971; 29.1584
90; 130.424; 90		6056Bajpai, Alankriti; Scott, Hayley S.; Pham, Tony; Chen, Kai-Jie; Space, Brian; Lusi, Matteo; Perry, Miranda L.; Zaworotko, Michael J.
Towards an understanding of the propensity for crystalline hydrate formation by molecular compounds
IUCrJ, 2016, 3
1544749 CIFC10 Cl8P 1 21/n 19.7188; 7.1598; 18.2787
90; 98.358; 90		1258.41Sarkar, Sounak; Row, Tayur N. Guru
A heuristic approach to evaluate <i>peri</i> interactions <i>versus</i> intermolecular interactions in an overcrowded naphthalene
IUCrJ, 2017, 4
1544782 CIFC30 H30 N4 O2 S2 ZnF d d 236.662; 37.055; 5.1092
90; 90; 90		6940.9Mulijanto, Caroline Evania; Quah, Hong Sheng; Tan, Geok Kheng; Donnadieu, Bruno; Vittal, Jagadese J.
Curved crystal morphology, photoreactivity and photosalient behaviour of mononuclear Zn(II) complexes
IUCrJ, 2017, 4
1544783 CIFC28 H26 F2 N4 O6 S2 ZnP 1 2/n 114.871; 4.9627; 20.315
90; 93.183; 90		1496.9Mulijanto, Caroline Evania; Quah, Hong Sheng; Tan, Geok Kheng; Donnadieu, Bruno; Vittal, Jagadese J.
Curved crystal morphology, photoreactivity and photosalient behaviour of mononuclear Zn(II) complexes
IUCrJ, 2017, 4
1544784 CIFC28 H20 F2 N4 S2 ZnP 1 21/c 110.3095; 12.2083; 20.7566
90; 96.68; 90		2594.72Mulijanto, Caroline Evania; Quah, Hong Sheng; Tan, Geok Kheng; Donnadieu, Bruno; Vittal, Jagadese J.
Curved crystal morphology, photoreactivity and photosalient behaviour of mononuclear Zn(II) complexes
IUCrJ, 2017, 4
1544785 CIFC28 H20 F2 N4 S2 ZnP n m a8.276; 24.824; 12.523
90; 90; 90		2573Mulijanto, Caroline Evania; Quah, Hong Sheng; Tan, Geok Kheng; Donnadieu, Bruno; Vittal, Jagadese J.
Curved crystal morphology, photoreactivity and photosalient behaviour of mononuclear Zn(II) complexes
IUCrJ, 2017, 4
1545111 CIFBaP 21/b 1 111.608; 11.634; 4.634
90; 90; 90		625.81Arakcheeva, Alla; Bykov, Maxim; Bykova, Elena; Dubrovinsky, Leonid; Pattison, Phil; Dmitriev, Vladimir; Chapuis, Gervais
Incommensurate atomic density waves in the high-pressure IVb phase of barium
IUCrJ, 2017, 4, 152-157
1545112 CIFBaP 21/b 1 111.6146; 11.6256; 4.6341
90; 90; 90		625.727Arakcheeva, Alla; Bykov, Maxim; Bykova, Elena; Dubrovinsky, Leonid; Pattison, Phil; Dmitriev, Vladimir; Chapuis, Gervais
Incommensurate atomic density waves in the high-pressure IVb phase of barium
IUCrJ, 2017, 4, 152-157
1545113 CIFBaP 21/b 1 111.5313; 11.6527; 4.6109
90; 90; 90		619.57Arakcheeva, Alla; Bykov, Maxim; Bykova, Elena; Dubrovinsky, Leonid; Pattison, Phil; Dmitriev, Vladimir; Chapuis, Gervais
Incommensurate atomic density waves in the high-pressure IVb phase of barium
IUCrJ, 2017, 4, 152-157
1545114 CIFBaP 21/b 1 111.5457; 11.5882; 4.599
90; 90; 90		615.318Arakcheeva, Alla; Bykov, Maxim; Bykova, Elena; Dubrovinsky, Leonid; Pattison, Phil; Dmitriev, Vladimir; Chapuis, Gervais
Incommensurate atomic density waves in the high-pressure IVb phase of barium
IUCrJ, 2017, 4, 152-157
1545115 CIFBaP 21/b 1 111.4996; 11.5527; 4.6035
90; 90; 90		611.582Arakcheeva, Alla; Bykov, Maxim; Bykova, Elena; Dubrovinsky, Leonid; Pattison, Phil; Dmitriev, Vladimir; Chapuis, Gervais
Incommensurate atomic density waves in the high-pressure IVb phase of barium
IUCrJ, 2017, 4, 152-157
1545116 CIFBaP 21/b 1 111.439; 11.53; 4.5937
90; 90; 90		605.9Arakcheeva, Alla; Bykov, Maxim; Bykova, Elena; Dubrovinsky, Leonid; Pattison, Phil; Dmitriev, Vladimir; Chapuis, Gervais
Incommensurate atomic density waves in the high-pressure IVb phase of barium
IUCrJ, 2017, 4, 152-157
1545241 CIFC14 H8 O6 Pb SP n m a5.874; 13.082; 19.297
90; 90; 90		1482.85Alkordi, Mohamed H.; Belmabkhout, Youssef; Cairns, Amy; Eddaoudi, Mohamed
Metal‒organic frameworks for H~2~ and CH~4~ storage: insights on the pore geometry‒sorption energetics relationship
IUCrJ, 2017, 4, 131-135
1545537 CIFC26 H23 Cl N2 O7P 1 21/c 123.14; 5.19; 21.2642
90; 111.714; 90		2372.5Bolla, Geetha; Chernyshev, Vladimir; Nangia, Ashwini
Acemetacin cocrystal structures by powder X-ray diffraction
IUCrJ, 2017, 4
1545538 CIFC27 H26 Cl N3 O8P -121.348; 4.1931; 15.2174
90.567; 101.4; 89.473		1335.2Bolla, Geetha; Chernyshev, Vladimir; Nangia, Ashwini
Acemetacin cocrystal structures by powder X-ray diffraction
IUCrJ, 2017, 4
1545539 CIFC27 H24 Cl N3 O7P 1 21/c 14.8977; 40.914; 12.8874
90; 100.328; 90		2540.6Bolla, Geetha; Chernyshev, Vladimir; Nangia, Ashwini
Acemetacin cocrystal structures by powder X-ray diffraction
IUCrJ, 2017, 4
1545540 CIFC28 H25 Cl N2 O8P 1 21 117.2939; 4.8191; 16.9544
90; 113.529; 90		1295.5Bolla, Geetha; Chernyshev, Vladimir; Nangia, Ashwini
Acemetacin cocrystal structures by powder X-ray diffraction
IUCrJ, 2017, 4
1545541 CIFC26 H27 Cl N2 O7P -111.7638; 20.5548; 5.1627
89.543; 93.3; 96.276		1238.8Bolla, Geetha; Chernyshev, Vladimir; Nangia, Ashwini
Acemetacin cocrystal structures by powder X-ray diffraction
IUCrJ, 2017, 4
1545680 CIF
Paper		C14 H10 Cl2 N2 O2P -18.4492; 9.1167; 9.1545
81.461; 77.033; 80.551		673.27Mittapalli, Sudhir; Sravanakumar Perumalla, D.; Nangia, Ashwini
Mechanochemical synthesis of <i>N</i>-salicylideneaniline: thermosalient effect of polymorphic crystals
IUCrJ, 2017, 4
1545681 CIF
Paper		C14 H10 Cl2 N2 O2P -18.3558; 12.7516; 13.0135
78.05; 77.167; 88.734		1322.24Mittapalli, Sudhir; Sravanakumar Perumalla, D.; Nangia, Ashwini
Mechanochemical synthesis of <i>N</i>-salicylideneaniline: thermosalient effect of polymorphic crystals
IUCrJ, 2017, 4
1545682 CIF
Paper		C14 H10 Cl2 N2 O2P -17.2798; 13.2794; 14.5473
87.618; 80.816; 75.707		1345.3Mittapalli, Sudhir; Sravanakumar Perumalla, D.; Nangia, Ashwini
Mechanochemical synthesis of <i>N</i>-salicylideneaniline: thermosalient effect of polymorphic crystals
IUCrJ, 2017, 4
1545683 CIFC14 H10 Cl2 N2 O2P -17.4309; 13.296; 14.694
87.6; 80.034; 75.859		1386.5Mittapalli, Sudhir; Sravanakumar Perumalla, D.; Nangia, Ashwini
Mechanochemical synthesis of <i>N</i>-salicylideneaniline: thermosalient effect of polymorphic crystals
IUCrJ, 2017, 4
1545684 CIFC14 H10 Br2 N2 O2P -18.3928; 9.2815; 9.3877
81.62; 75.049; 81.589		694.45Mittapalli, Sudhir; Sravanakumar Perumalla, D.; Nangia, Ashwini
Mechanochemical synthesis of <i>N</i>-salicylideneaniline: thermosalient effect of polymorphic crystals
IUCrJ, 2017, 4
1545685 CIFC14 H10 I2 N2 O2P -18.4678; 9.6066; 9.6522
81.239; 84.45; 72.336		738.36Mittapalli, Sudhir; Sravanakumar Perumalla, D.; Nangia, Ashwini
Mechanochemical synthesis of <i>N</i>-salicylideneaniline: thermosalient effect of polymorphic crystals
IUCrJ, 2017, 4
1545809 CIFC32 H36 N4 O4P 1 21/n 17.8566; 21.336; 8.3872
90; 90.911; 90		1405.8Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545810 CIFC30 H34 N2 O4 S2P 1 21/n 17.7971; 22.217; 7.9179
90; 91.479; 90		1371.1Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545811 CIFC43 H49 N5 O4P -17.409; 8.781; 15.36
81.63; 86.57; 78.64		969Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545812 CIFC29 H30 N2 O2P 1 21/c 17.5571; 24.125; 12.9363
90; 92.034; 90		2357Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545813 CIFC34 H38 N2 O4P 1 21/n 18.292; 20.615; 8.47
90; 92.435; 90		1446.6Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545814 CIFC44 H46 N6 O4P -17.485; 8.797; 14.171
96.618; 93.306; 91.826		924.6Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545815 CIFC42 H44 N4 O4 S2P -17.492; 9.069; 13.643
98.069; 92.516; 91.428		916.5Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545816 CIFC90 H96 N10 O8P -17.3795; 8.8871; 29.533
89.495; 84.054; 85.281		1919.9Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545817 CIFC75 H73 N8 O6P -17.478; 8.739; 23.37
92.36; 90.29; 93.131		1524Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545818 CIFC46 H48 N4 O4P -17.528; 8.948; 14.11
96.219; 94.61; 90.598		942Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545819 CIFC44 H48 N6 O4P -17.4957; 8.7882; 14.308
97.049; 94.334; 91.781		931.9Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545820 CIFC42 H46 N4 O4 S2P -17.531; 9.026; 13.941
98.18; 92.03; 91.235		937Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545821 CIFC75 H75 N8 O6P -17.4611; 8.7285; 23.6219
92.85; 91.347; 93.317		1533.34Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545822 CIFC77 H79 N8 O5P -17.4709; 8.7326; 23.6381
92.857; 91.317; 93.293		1537.18Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545823 CIFC77 H77 N6 O6P -17.4914; 8.8265; 23.583
92.722; 92.976; 91.626		1554.77Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545824 CIFC46 H50 N4 O4P -17.5407; 8.9198; 14.284
96.506; 96.093; 90.634		948.9Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545825 CIFC27 H38 N2 O2P 1 21/c 18.356; 24.894; 11.744
90; 96.324; 90		2428Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545826 CIFC50 H52 N4 O4P -17.546; 9.4647; 14.8318
85.58; 77.14; 86.77		1028.8Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545827 CIFC42 H48 N6 O4P -17.324; 8.723; 15.107
82.27; 88.73; 78.76		938Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545828 CIFC31 H30 N2 O2P 1 21/c 18.0059; 24.903; 12.0892
90; 91.065; 90		2409.8Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545829 CIFC44 H50 N4 O4P -17.195; 8.865; 15.981
80.52; 84.2; 79.19		985Mir, Niyaz A.; Dubey, Ritesh; Desiraju, Gautam R.
Four- and five-component molecular solids: crystal engineering strategies based on structural inequivalence
IUCrJ, 2016, 3, 96-101
1545830 CIF
Paper		C9 H11 N5 O4 S2P 1 21/n 14.9138; 33.192; 8.3659
90; 99.52; 90		1345.7Bolla, Geetha; Nangia, Ashwini
Binary and ternary cocrystals of sulfa drug acetazolamide with pyridine carboxamides and cyclic amides
IUCrJ, 2016, 3, 152-160
1545831 CIF
Paper		C14 H16 N6 O5 S2P -16.8501; 11.3563; 12.3387
82.288; 81.856; 75.804		916.19Bolla, Geetha; Nangia, Ashwini
Binary and ternary cocrystals of sulfa drug acetazolamide with pyridine carboxamides and cyclic amides
IUCrJ, 2016, 3, 152-160
1545832 CIF
Paper		C10 H19 N5 O5 S2P -14.9969; 11.6983; 14.6244
70.868; 81.892; 80.262		792.65Bolla, Geetha; Nangia, Ashwini
Binary and ternary cocrystals of sulfa drug acetazolamide with pyridine carboxamides and cyclic amides
IUCrJ, 2016, 3, 152-160
1545833 CIF
Paper		C5 H9 N4 O3.5 S2.5C 1 2/c 152.62; 4.816; 17.814
90; 106.785; 90		4322Bolla, Geetha; Nangia, Ashwini
Binary and ternary cocrystals of sulfa drug acetazolamide with pyridine carboxamides and cyclic amides
IUCrJ, 2016, 3, 152-160
1545834 CIF
Paper		C10 H13 N5 O4 S2P 1 c 111.3972; 18.1641; 10.338
90; 97.046; 90		2124Bolla, Geetha; Nangia, Ashwini
Binary and ternary cocrystals of sulfa drug acetazolamide with pyridine carboxamides and cyclic amides
IUCrJ, 2016, 3, 152-160
1545835 CIF
Paper		C10 H12 N6 O4 S2P -15.1477; 10.8147; 14.2604
69.797; 85.463; 81.889		737.2Bolla, Geetha; Nangia, Ashwini
Binary and ternary cocrystals of sulfa drug acetazolamide with pyridine carboxamides and cyclic amides
IUCrJ, 2016, 3, 152-160
1545836 CIF
Paper		C15 H17 N7 O5 S2P -17.0347; 10.2539; 13.7934
81.685; 83.028; 88.283		977.14Bolla, Geetha; Nangia, Ashwini
Binary and ternary cocrystals of sulfa drug acetazolamide with pyridine carboxamides and cyclic amides
IUCrJ, 2016, 3, 152-160
1545837 CIF
Paper		C10 H15 N5 O6 S2P -17.7872; 10.213; 10.2464
88.192; 76.587; 77.996		775.22Bolla, Geetha; Nangia, Ashwini
Binary and ternary cocrystals of sulfa drug acetazolamide with pyridine carboxamides and cyclic amides
IUCrJ, 2016, 3, 152-160
1545838 CIF
Paper		C14 H24 N6 O5 S2P 1 21/c 19.66166; 23.4685; 8.84352
90; 100.773; 90		1969.88Bolla, Geetha; Nangia, Ashwini
Binary and ternary cocrystals of sulfa drug acetazolamide with pyridine carboxamides and cyclic amides
IUCrJ, 2016, 3, 152-160
1545839 CIFC38 H52 N6 O4P -18.8712; 10.1819; 11.2862
114.633; 93.749; 101		897.56Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545840 CIFC120 H160 N16 O17C 1 2/c 115.533; 8.564; 21.8
90; 93.873; 90		2893Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545841 CIFC36 H48 N6 O6P 1 21/c 115.6084; 13.4786; 17.2209
90; 90.2; 90		3622.9Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545842 CIFC64 H56 N4 O4P -19.0005; 10.0381; 14.4894
108.432; 101.78; 90.484		1212Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545843 CIFC29 H31 N3 O2P -18.9943; 9.5169; 14.927
74.162; 77.589; 89.115		1199.2Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545844 CIFC62 H54 N6 O4P -19.034; 9.889; 14.505
107.761; 101.019; 91.432		1206.5Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545845 CIFC54 H54 N6 O6P -18.6332; 9.0194; 14.869
105.2; 91.263; 91.519		1116.4Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545846 CIFC44 H44 N6 O6P -17.812; 8.763; 14.3
95.009; 95.415; 101.04		950.9Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545847 CIFC56 H56 N6 O8P -110.151; 11.2084; 12.3363
102.012; 105.153; 112.368		1176.1Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545848 CIFC38 H46 N4 O4 S2P -18.662; 10.289; 11.523
65.003; 76.93; 80.277		903.5Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545849 CIFC24 H23 N2 O2P -18.971; 10.078; 11.666
109.665; 94.353; 90.742		989.5Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545850 CIFC42 H58 N4 O4P 1 21/c 111.4579; 11.8325; 14.9792
90; 107.229; 90		1939.7Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545851 CIFC46 H44 N6 O4P -18.983; 12.712; 17.561
89.485; 76.291; 82.933		1933Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545852 CIFC23 H22 N3 O2P -18.778; 10.491; 12.095
66.387; 81.548; 69.631		956.7Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545853 CIFC46 H50 N4 O4P -18.921; 10.723; 10.954
67.417; 81.183; 78.367		944.3Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545854 CIFC40 H48 N6 O6P -18.284; 8.564; 14.6
78.65; 87.26; 64.4		915Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545855 CIFC44 H40 N6 O6P -19.012; 11.241; 18.355
94.296; 93.207; 92.248		1850Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545856 CIFC56 H48 N8 O6P -17.576; 9.081; 16.503
96.651; 90.601; 91.433		1127.3Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545857 CIFC44 H46 N4 O6P 1 21/c 18.876; 11.941; 17.98
90; 97.072; 90		1891.2Dubey, Ritesh; Mir, Niyaz A.; Desiraju, Gautam R.
Quaternary cocrystals: combinatorial synthetic strategies based on long-range synthon Aufbau modules (LSAM)
IUCrJ, 2016, 3, 102-107
1545858 CIFC66 H84 I6 N12 Zn3C 1 2/c 134.376; 15.0832; 29.6413
90; 100.675; 90		15103Hoshino, Manabu; Khutia, Anupam; Xing, Hongzhu; Inokuma, Yasuhide; Fujita, Makoto
The crystalline sponge method updated
IUCrJ, 2016, 3, 139-151
1545859 CIFC73.5 H78.76 I6 N12 Zn3C 1 2/c 135.0725; 14.8911; 30.9658
90; 101.956; 90		15821.6Hoshino, Manabu; Khutia, Anupam; Xing, Hongzhu; Inokuma, Yasuhide; Fujita, Makoto
The crystalline sponge method updated
IUCrJ, 2016, 3, 139-151
1545860 CIFC285 H317 I24 N48 O15 Zn12P 1 21 132.8072; 14.9123; 34.9062
90; 105.822; 90		16430.2Hoshino, Manabu; Khutia, Anupam; Xing, Hongzhu; Inokuma, Yasuhide; Fujita, Makoto
The crystalline sponge method updated
IUCrJ, 2016, 3, 139-151
1545861 CIFC61.47 H64.79 I6.01 N12 O4.06 Zn3C 1 2/c 134.4746; 15.0255; 30.1535
90; 99.681; 90		15397Hoshino, Manabu; Khutia, Anupam; Xing, Hongzhu; Inokuma, Yasuhide; Fujita, Makoto
The crystalline sponge method updated
IUCrJ, 2016, 3, 139-151
1545862 CIFC75 H72 I6 N12 O10.5 Zn3C 1 2/c 134.1414; 14.5641; 34.9597
90; 108.633; 90		16472.2Hoshino, Manabu; Khutia, Anupam; Xing, Hongzhu; Inokuma, Yasuhide; Fujita, Makoto
The crystalline sponge method updated
IUCrJ, 2016, 3, 139-151
1545863 CIFC67 H66 I6 N12 O9 Zn3C 1 2/c 134.9043; 14.955; 30.3469
90; 100.074; 90		15596.7Hoshino, Manabu; Khutia, Anupam; Xing, Hongzhu; Inokuma, Yasuhide; Fujita, Makoto
The crystalline sponge method updated
IUCrJ, 2016, 3, 139-151
1545864 CIFC69.69 H80.8 I6 N14.11 Zn3C 1 2/c 136.8116; 14.6974; 30.6993
90; 103.07; 90		16179.1Hoshino, Manabu; Khutia, Anupam; Xing, Hongzhu; Inokuma, Yasuhide; Fujita, Makoto
The crystalline sponge method updated
IUCrJ, 2016, 3, 139-151
1545865 CIFC58.32 H48.8 I6 N14.2 O6.61 Zn3C 1 2/c 132.5791; 15.2458; 29.0346
90; 98.398; 90		14266.7Hoshino, Manabu; Khutia, Anupam; Xing, Hongzhu; Inokuma, Yasuhide; Fujita, Makoto
The crystalline sponge method updated
IUCrJ, 2016, 3, 139-151
1545866 CIFC64.44 H65.6 I6 N12 O1.48 Zn3C 1 2/c 135.1288; 14.767; 30.8649
90; 101.432; 90		15693.4Hoshino, Manabu; Khutia, Anupam; Xing, Hongzhu; Inokuma, Yasuhide; Fujita, Makoto
The crystalline sponge method updated
IUCrJ, 2016, 3, 139-151
1545867 CIFC120.9 H108 I11.99 N24 O12.59 Zn5.99P -114.8292; 17.9234; 29.9062
96.836; 93.529; 110.142		7364.6Hoshino, Manabu; Khutia, Anupam; Xing, Hongzhu; Inokuma, Yasuhide; Fujita, Makoto
The crystalline sponge method updated
IUCrJ, 2016, 3, 139-151
1545868 CIFC123 H113.6 I12 N24 O12.14 Zn6P -114.8303; 17.913; 29.8943
96.803; 93.488; 110.229		7355Hoshino, Manabu; Khutia, Anupam; Xing, Hongzhu; Inokuma, Yasuhide; Fujita, Makoto
The crystalline sponge method updated
IUCrJ, 2016, 3, 139-151
1545869 CIFC123 H112.85 I11.99 N24 O12.39 Zn5.99P -114.8303; 17.913; 29.8943
96.803; 93.488; 110.229		7355Hoshino, Manabu; Khutia, Anupam; Xing, Hongzhu; Inokuma, Yasuhide; Fujita, Makoto
The crystalline sponge method updated
IUCrJ, 2016, 3, 139-151
1545870 CIFC71.25 H57.96 Br1.92 I6 N12 Zn3C 1 2/c 135.8691; 14.8864; 31.2823
90; 102.711; 90		16294.2Hoshino, Manabu; Khutia, Anupam; Xing, Hongzhu; Inokuma, Yasuhide; Fujita, Makoto
The crystalline sponge method updated
IUCrJ, 2016, 3, 139-151
1545871 CIFC60.92 H58.15 I6 N12 O5.89 Zn3C 1 2/c 134.0465; 14.9235; 30.8377
90; 100.629; 90		15399.6Hoshino, Manabu; Khutia, Anupam; Xing, Hongzhu; Inokuma, Yasuhide; Fujita, Makoto
The crystalline sponge method updated
IUCrJ, 2016, 3, 139-151
1546012 CIF
Paper		C12 H10 Cl I O4P 1 21/c 112.232; 12.7073; 17.15
90; 103.5; 90		2592.1Cavallo, Gabriella; Murray, Jane S.; Politzer, Peter; Pilati, Tullio; Ursini, Maurizio; Resnati, Giuseppe
Halogen bonding in hypervalent iodine and bromine derivatives: halonium salts
IUCrJ, 2017, 4
1546013 CIFC12 H10 F6 I PP 1 21/n 15.9721; 12.9442; 18.387
90; 96.195; 90		1413.1Cavallo, Gabriella; Murray, Jane S.; Politzer, Peter; Pilati, Tullio; Ursini, Maurizio; Resnati, Giuseppe
Halogen bonding in hypervalent iodine and bromine derivatives: halonium salts
IUCrJ, 2017, 4
1546014 CIFC33 H22 Cl2 F18 I2 O3P -111.7183; 13.4322; 14.8978
113.429; 107.498; 101.366		1913Cavallo, Gabriella; Murray, Jane S.; Politzer, Peter; Pilati, Tullio; Ursini, Maurizio; Resnati, Giuseppe
Halogen bonding in hypervalent iodine and bromine derivatives: halonium salts
IUCrJ, 2017, 4
1546015 CIFC36 H24 B0.5 Br5.5 F8P 43 3 215.4248; 15.4248; 15.4248
90; 90; 90		3669.9Cavallo, Gabriella; Murray, Jane S.; Politzer, Peter; Pilati, Tullio; Ursini, Maurizio; Resnati, Giuseppe
Halogen bonding in hypervalent iodine and bromine derivatives: halonium salts
IUCrJ, 2017, 4
1546016 CIFC36 H24 B Br3 Cl2 F10P 41 3 215.2905; 15.2905; 15.2905
90; 90; 90		3574.9Cavallo, Gabriella; Murray, Jane S.; Politzer, Peter; Pilati, Tullio; Ursini, Maurizio; Resnati, Giuseppe
Halogen bonding in hypervalent iodine and bromine derivatives: halonium salts
IUCrJ, 2017, 4
1546017 CIFC14 H12 B Br F4 O2P -18.1574; 10.0848; 10.157
89.158; 72.819; 66.607		727.64Cavallo, Gabriella; Murray, Jane S.; Politzer, Peter; Pilati, Tullio; Ursini, Maurizio; Resnati, Giuseppe
Halogen bonding in hypervalent iodine and bromine derivatives: halonium salts
IUCrJ, 2017, 4
1546113 CIFC24 H18 B F10 NP -4 21 c22.206; 22.206; 8.692
90; 90; 90		4286.1Krause, Lennard; Niepötter, Benedikt; Schürmann, Christian J.; Stalke, Dietmar; Herbst-Irmer, Regine
Validation of experimental charge-density refinement strategies: when do we overfit?
IUCrJ, 2017, 4
1546114 CIFC24 H18 B F10 NP -4 21 c22.206; 22.206; 8.692
90; 90; 90		4286.1Krause, Lennard; Niepötter, Benedikt; Schürmann, Christian J.; Stalke, Dietmar; Herbst-Irmer, Regine
Validation of experimental charge-density refinement strategies: when do we overfit?
IUCrJ, 2017, 4
1546115 CIFC20 H23 P SP b c a10.9323; 14.5698; 21.091
90; 90; 90		3359.4Krause, Lennard; Niepötter, Benedikt; Schürmann, Christian J.; Stalke, Dietmar; Herbst-Irmer, Regine
Validation of experimental charge-density refinement strategies: when do we overfit?
IUCrJ, 2017, 4
1546116 CIFC20 H23 P SP b c a10.932; 14.57; 21.091
90; 90; 90		3359.4Krause, Lennard; Niepötter, Benedikt; Schürmann, Christian J.; Stalke, Dietmar; Herbst-Irmer, Regine
Validation of experimental charge-density refinement strategies: when do we overfit?
IUCrJ, 2017, 4
1546261 CIFC14 H15 N3 O4C 1 2/c 128.685; 6.783; 13.975
90; 94.175; 90		2712Rajput, Lalit; Banik, Manas; Yarava, Jayasubba Reddy; Joseph, Sumy; Pandey, Manoj Kumar; Nishiyama, Yusuke; Desiraju, Gautam R.
Exploring the salt‒cocrystal continuum with solid-state NMR using natural-abundance samples: implications for crystal engineering
IUCrJ, 2017, 4
1546262 CIFC14 H15 N3 O4C 1 2/c 128.86; 6.791; 14.243
90; 95.4097; 90		2779Rajput, Lalit; Banik, Manas; Yarava, Jayasubba Reddy; Joseph, Sumy; Pandey, Manoj Kumar; Nishiyama, Yusuke; Desiraju, Gautam R.
Exploring the salt‒cocrystal continuum with solid-state NMR using natural-abundance samples: implications for crystal engineering
IUCrJ, 2017, 4
1546263 CIFC14 H13 N3 O6P 1 21/c 18.439; 14.091; 12.167
90; 95.5; 90		1440.2Rajput, Lalit; Banik, Manas; Yarava, Jayasubba Reddy; Joseph, Sumy; Pandey, Manoj Kumar; Nishiyama, Yusuke; Desiraju, Gautam R.
Exploring the salt‒cocrystal continuum with solid-state NMR using natural-abundance samples: implications for crystal engineering
IUCrJ, 2017, 4
1546264 CIFC14 H13 N3 O6P 1 21/c 18.574; 14.346; 12.19
90; 94.44; 90		1495Rajput, Lalit; Banik, Manas; Yarava, Jayasubba Reddy; Joseph, Sumy; Pandey, Manoj Kumar; Nishiyama, Yusuke; Desiraju, Gautam R.
Exploring the salt‒cocrystal continuum with solid-state NMR using natural-abundance samples: implications for crystal engineering
IUCrJ, 2017, 4
1546265 CIFC14 H14 N2 O4P -16.631; 7.032; 14.216
87.967; 88.58; 80.207		652.7Rajput, Lalit; Banik, Manas; Yarava, Jayasubba Reddy; Joseph, Sumy; Pandey, Manoj Kumar; Nishiyama, Yusuke; Desiraju, Gautam R.
Exploring the salt‒cocrystal continuum with solid-state NMR using natural-abundance samples: implications for crystal engineering
IUCrJ, 2017, 4
1546266 CIFC14 H14 N2 O4P -16.7302; 7.1859; 14.298
88.158; 88.34; 78.636		677.4Rajput, Lalit; Banik, Manas; Yarava, Jayasubba Reddy; Joseph, Sumy; Pandey, Manoj Kumar; Nishiyama, Yusuke; Desiraju, Gautam R.
Exploring the salt‒cocrystal continuum with solid-state NMR using natural-abundance samples: implications for crystal engineering
IUCrJ, 2017, 4
1546267 CIFC12 H8 Cl5 N OP -17.316; 8.942; 11.763
70.15; 84.67; 76.24		703Rajput, Lalit; Banik, Manas; Yarava, Jayasubba Reddy; Joseph, Sumy; Pandey, Manoj Kumar; Nishiyama, Yusuke; Desiraju, Gautam R.
Exploring the salt‒cocrystal continuum with solid-state NMR using natural-abundance samples: implications for crystal engineering
IUCrJ, 2017, 4
1546268 CIFC12 H8 Cl5 N OP -17.389; 8.922; 12.014
69.82; 85.61; 76.26		722.1Rajput, Lalit; Banik, Manas; Yarava, Jayasubba Reddy; Joseph, Sumy; Pandey, Manoj Kumar; Nishiyama, Yusuke; Desiraju, Gautam R.
Exploring the salt‒cocrystal continuum with solid-state NMR using natural-abundance samples: implications for crystal engineering
IUCrJ, 2017, 4
1546269 CIFC12 H8 Cl5 N OP -17.3382; 8.8986; 11.8245
69.945; 85.055; 76.133		704.17Rajput, Lalit; Banik, Manas; Yarava, Jayasubba Reddy; Joseph, Sumy; Pandey, Manoj Kumar; Nishiyama, Yusuke; Desiraju, Gautam R.
Exploring the salt‒cocrystal continuum with solid-state NMR using natural-abundance samples: implications for crystal engineering
IUCrJ, 2017, 4
1546270 CIFC12 H8 Cl5 N OP -17.3857; 8.9202; 12.0227
69.77; 85.869; 76.324		722.1Rajput, Lalit; Banik, Manas; Yarava, Jayasubba Reddy; Joseph, Sumy; Pandey, Manoj Kumar; Nishiyama, Yusuke; Desiraju, Gautam R.
Exploring the salt‒cocrystal continuum with solid-state NMR using natural-abundance samples: implications for crystal engineering
IUCrJ, 2017, 4
1546475 CIFC3 H10 O11 SmP 1 21/c 111.5863; 9.608; 10.1371
90; 118.906; 90		987.88Matvienko, Alexander A.; Maslennikov, Daniel V.; Zakharov, Boris A.; Sidelnikov, Anatoly A.; Chizhik, Stanislav A.; Boldyreva, Elena V.
Structural aspects of displacive transformations: what can optical microscopy contribute? Dehydration of Sm~2~(C~2~O~4~)~3~·10H~2~O as a case study
IUCrJ, 2017, 4
1546476 CIFC3 H6 O9 SmP 1 21/c 18.4368; 9.7963; 9.4986
90; 90.393; 90		785.04Matvienko, Alexander A.; Maslennikov, Daniel V.; Zakharov, Boris A.; Sidelnikov, Anatoly A.; Chizhik, Stanislav A.; Boldyreva, Elena V.
Structural aspects of displacive transformations: what can optical microscopy contribute? Dehydration of Sm~2~(C~2~O~4~)~3~·10H~2~O as a case study
IUCrJ, 2017, 4
1546775 CIFB2 Ca O8 Si2P n a m6.8576; 8.1526; 7.7457
90; 90; 90		433.04Pakhomova, Anna; Bykova, Elena; Bykov, Maxim; Glazyrin, Konstantin; Gasharova, Biliana; Liermann, Hanns-Peter; Mezouar, Mohamed; Gorelova, Liudmila; Krivovichev, Sergey; Dubrovinsky, Leonid
A closer look into close packing: pentacoordinated silicon in a high-pressure polymorph of danburite
IUCrJ, 2017, 4
1546776 CIFB2 Ca O8 Si2P n a m6.3537; 7.9518; 8.0112
90; 90; 90		404.75Pakhomova, Anna; Bykova, Elena; Bykov, Maxim; Glazyrin, Konstantin; Gasharova, Biliana; Liermann, Hanns-Peter; Mezouar, Mohamed; Gorelova, Liudmila; Krivovichev, Sergey; Dubrovinsky, Leonid
A closer look into close packing: pentacoordinated silicon in a high-pressure polymorph of danburite
IUCrJ, 2017, 4
1546777 CIFB2 Ca O8 Si2P -15.479; 5.532; 6.681
91.74; 104.57; 95.59		194.7Pakhomova, Anna; Bykova, Elena; Bykov, Maxim; Glazyrin, Konstantin; Gasharova, Biliana; Liermann, Hanns-Peter; Mezouar, Mohamed; Gorelova, Liudmila; Krivovichev, Sergey; Dubrovinsky, Leonid
A closer look into close packing: pentacoordinated silicon in a high-pressure polymorph of danburite
IUCrJ, 2017, 4
1546778 CIFB4 Ca2 O16 Si4P 1 21/c 17.9989; 7.8697; 6.249
90; 89.75; 90		393.4Pakhomova, Anna; Bykova, Elena; Bykov, Maxim; Glazyrin, Konstantin; Gasharova, Biliana; Liermann, Hanns-Peter; Mezouar, Mohamed; Gorelova, Liudmila; Krivovichev, Sergey; Dubrovinsky, Leonid
A closer look into close packing: pentacoordinated silicon in a high-pressure polymorph of danburite
IUCrJ, 2017, 4
1546928 CIFC2 D5 N O2I 15.1; 6.285; 5.4295
85.815; 114.456; 104.136		153.545Bull, Craig L.; Flowitt-Hill, Giles; de Gironcoli, Stefano; Küçükbenli, Emine; Parsons, Simon; Pham, Cong Huy; Playford, Helen Y.; Tucker, Matthew G.
ζ-Glycine: insight into the mechanism of a polymorphic phase transition
IUCrJ, 2017, 4, 569-574
1546929 CIFC2 D5 N O2P 1 n 15.023; 5.9846; 5.4946
90; 114.654; 90		150.11Bull, Craig L.; Flowitt-Hill, Giles; de Gironcoli, Stefano; Küçükbenli, Emine; Parsons, Simon; Pham, Cong Huy; Playford, Helen Y.; Tucker, Matthew G.
ζ-Glycine: insight into the mechanism of a polymorphic phase transition
IUCrJ, 2017, 4, 569-574
1546930 CIFC2 D5 N O2P 1 21 15.0907; 6.25954; 5.3871
90; 113.261; 90		157.709Bull, Craig L.; Flowitt-Hill, Giles; de Gironcoli, Stefano; Küçükbenli, Emine; Parsons, Simon; Pham, Cong Huy; Playford, Helen Y.; Tucker, Matthew G.
ζ-Glycine: insight into the mechanism of a polymorphic phase transition
IUCrJ, 2017, 4, 569-574
1546931 CIFC2 D5 N O2I 15.1029; 6.345; 5.4331
85.91; 114.26; 103.55		155.85Bull, Craig L.; Flowitt-Hill, Giles; de Gironcoli, Stefano; Küçükbenli, Emine; Parsons, Simon; Pham, Cong Huy; Playford, Helen Y.; Tucker, Matthew G.
ζ-Glycine: insight into the mechanism of a polymorphic phase transition
IUCrJ, 2017, 4, 569-574
1547808 CIF
Paper		C13 H9 Cl2 N3 O2P 1 21/c 18.0683; 10.7464; 15.6155
90; 90.89; 90		1353.78Mittapalli, Sudhir; Perumalla, D. Sravanakumar; Nanubolu, Jagadeesh Babu; Nangia, Ashwini
Thermomechanical effect in molecular crystals: the role of halogen-bonding interactions
IUCrJ, 2017, 4, 812-823
1547809 CIF
Paper		C13 H9 Cl2 N3 O2P c a 2115.441; 8.3179; 10.6014
90; 90; 90		1361.6Mittapalli, Sudhir; Perumalla, D. Sravanakumar; Nanubolu, Jagadeesh Babu; Nangia, Ashwini
Thermomechanical effect in molecular crystals: the role of halogen-bonding interactions
IUCrJ, 2017, 4, 812-823
1547810 CIF
Paper		C13 H9 Cl2 N3 O2P 1 21/c 18.6916; 10.2641; 15.4965
90; 90.186; 90		1382.46Mittapalli, Sudhir; Perumalla, D. Sravanakumar; Nanubolu, Jagadeesh Babu; Nangia, Ashwini
Thermomechanical effect in molecular crystals: the role of halogen-bonding interactions
IUCrJ, 2017, 4, 812-823
1547811 CIFC13 H9 Br2 N3 O2P 1 21/c 18.266; 10.917; 15.734
90; 95.82; 90		1412.5Mittapalli, Sudhir; Perumalla, D. Sravanakumar; Nanubolu, Jagadeesh Babu; Nangia, Ashwini
Thermomechanical effect in molecular crystals: the role of halogen-bonding interactions
IUCrJ, 2017, 4, 812-823
1547812 CIFC13 H9 Br2 N3 O2P -19.8084; 10.7751; 13.9516
103.219; 94.907; 91.018		1429.11Mittapalli, Sudhir; Perumalla, D. Sravanakumar; Nanubolu, Jagadeesh Babu; Nangia, Ashwini
Thermomechanical effect in molecular crystals: the role of halogen-bonding interactions
IUCrJ, 2017, 4, 812-823
1547813 CIFC13 H9 Br Cl N3 O2P 1 21/c 18.2475; 10.8035; 15.7971
90; 96.098; 90		1399.6Mittapalli, Sudhir; Perumalla, D. Sravanakumar; Nanubolu, Jagadeesh Babu; Nangia, Ashwini
Thermomechanical effect in molecular crystals: the role of halogen-bonding interactions
IUCrJ, 2017, 4, 812-823
1547814 CIFC13 H9 Br Cl N3 O2P 1 21/c 18.651; 10.446; 15.68
90; 94.116; 90		1413.3Mittapalli, Sudhir; Perumalla, D. Sravanakumar; Nanubolu, Jagadeesh Babu; Nangia, Ashwini
Thermomechanical effect in molecular crystals: the role of halogen-bonding interactions
IUCrJ, 2017, 4, 812-823
1547815 CIFC13 H9 I2 N3 O2P 1 21/c 18.2946; 11.2673; 16.2177
90; 97.993; 90		1500.95Mittapalli, Sudhir; Perumalla, D. Sravanakumar; Nanubolu, Jagadeesh Babu; Nangia, Ashwini
Thermomechanical effect in molecular crystals: the role of halogen-bonding interactions
IUCrJ, 2017, 4, 812-823
1547816 CIFC13 H9 F2 N3 O2P 1 21/c 17.897; 10.396; 14.989
90; 92.27; 90		1229.6Mittapalli, Sudhir; Perumalla, D. Sravanakumar; Nanubolu, Jagadeesh Babu; Nangia, Ashwini
Thermomechanical effect in molecular crystals: the role of halogen-bonding interactions
IUCrJ, 2017, 4, 812-823
1548112 CIF
Paper		C8 H8 Cd Cl2 N4 O2P 1 21/c 13.7833; 7.6139; 20.1473
90; 92.131; 90		579.96Daković, Marijana; Soldin, Željka; Kukovec, Boris-Marko; Kodrin, Ivan; Aakeröy, Christer B.; Baus, Nea; Rinkovec, Tamara
Building inorganic supramolecular architectures using principles adopted from the organic solid state
IUCrJ, 2018, 5
1548113 CIFC8 H8 Br2 Cd N4 O2P 1 21/c 13.9043; 7.718; 20.6142
90; 92.442; 90		620.61Daković, Marijana; Soldin, Željka; Kukovec, Boris-Marko; Kodrin, Ivan; Aakeröy, Christer B.; Baus, Nea; Rinkovec, Tamara
Building inorganic supramolecular architectures using principles adopted from the organic solid state
IUCrJ, 2018, 5
1548114 CIFC8 H8 Cd I2 N4 O2P 1 21/c 14.1497; 7.8783; 21.0091
90; 92.551; 90		686.16Daković, Marijana; Soldin, Željka; Kukovec, Boris-Marko; Kodrin, Ivan; Aakeröy, Christer B.; Baus, Nea; Rinkovec, Tamara
Building inorganic supramolecular architectures using principles adopted from the organic solid state
IUCrJ, 2018, 5
1548115 CIFC8 H8 Br2 Cd N4 O2P 1 21/n 13.884; 23.164; 7.0359
90; 93.712; 90		631.68Daković, Marijana; Soldin, Željka; Kukovec, Boris-Marko; Kodrin, Ivan; Aakeröy, Christer B.; Baus, Nea; Rinkovec, Tamara
Building inorganic supramolecular architectures using principles adopted from the organic solid state
IUCrJ, 2018, 5
1548116 CIFC8 H8 Cd I2 N4 O2P 1 21/c 14.0953; 7.8089; 21.7078
90; 92.307; 90		693.65Daković, Marijana; Soldin, Željka; Kukovec, Boris-Marko; Kodrin, Ivan; Aakeröy, Christer B.; Baus, Nea; Rinkovec, Tamara
Building inorganic supramolecular architectures using principles adopted from the organic solid state
IUCrJ, 2018, 5
1548117 CIFC16 H12 Br2 Cd N4 O2I 1 2/a 118.259; 3.867; 24.2737
90; 95.491; 90		1706.04Daković, Marijana; Soldin, Željka; Kukovec, Boris-Marko; Kodrin, Ivan; Aakeröy, Christer B.; Baus, Nea; Rinkovec, Tamara
Building inorganic supramolecular architectures using principles adopted from the organic solid state
IUCrJ, 2018, 5
1548118 CIFC16 H12 Cd I2 N4 O2I 1 2/a 119.7099; 6.8535; 13.631
90; 98.052; 90		1823.15Daković, Marijana; Soldin, Željka; Kukovec, Boris-Marko; Kodrin, Ivan; Aakeröy, Christer B.; Baus, Nea; Rinkovec, Tamara
Building inorganic supramolecular architectures using principles adopted from the organic solid state
IUCrJ, 2018, 5
1548908 CIF
Paper		Al O4 PR -3 :R9.609; 9.609; 9.609
94.46; 94.46; 94.46		878.7Tinti, Gemma; Fröjdh, Erik; van Genderen, Eric; Gruene, Tim; Schmitt, Bernd; de Winter, D. A. Matthijs; Weckhuysen, Bert M.; Abrahams, Jan Pieter
Electron crystallography with the EIGER detector
IUCrJ, 2018, 5, 190-199
1549161 CIF
Paper		C20 H24 N2 O10 Zn2P n n m7.4159; 19.318; 7.3457
90; 90; 90		1052.3Zorina-Tikhonova, Ekaterina N.; Chistyakov, Aleksandr S.; Kiskin, Mikhail A.; Sidorov, Aleksei A.; Dorovatovskii, Pavel V.; Zubavichus, Yan V.; Voronova, Eugenia D.; Godovikov, Ivan A.; Korlyukov, Alexander A.; Eremenko, Igor L.; Vologzhanina, Anna V.
Exploitation of knowledge databases in the synthesis of zinc(II) malonates with photo-sensitive and photo-insensitive <i>N</i>,<i>N</i>'-containing linkers
IUCrJ, 2018, 5
1549162 CIFC17 H18 N2 O5 ZnP 1 21/c 18.2852; 10.4999; 21.684
90; 117.282; 90		1676.5Zorina-Tikhonova, Ekaterina N.; Chistyakov, Aleksandr S.; Kiskin, Mikhail A.; Sidorov, Aleksei A.; Dorovatovskii, Pavel V.; Zubavichus, Yan V.; Voronova, Eugenia D.; Godovikov, Ivan A.; Korlyukov, Alexander A.; Eremenko, Igor L.; Vologzhanina, Anna V.
Exploitation of knowledge databases in the synthesis of zinc(II) malonates with photo-sensitive and photo-insensitive <i>N</i>,<i>N</i>'-containing linkers
IUCrJ, 2018, 5
1549163 CIFC17 H17 N2 O4.25 ZnP n n a8.3; 10.4; 19.74
90; 90; 90		1704Zorina-Tikhonova, Ekaterina N.; Chistyakov, Aleksandr S.; Kiskin, Mikhail A.; Sidorov, Aleksei A.; Dorovatovskii, Pavel V.; Zubavichus, Yan V.; Voronova, Eugenia D.; Godovikov, Ivan A.; Korlyukov, Alexander A.; Eremenko, Igor L.; Vologzhanina, Anna V.
Exploitation of knowledge databases in the synthesis of zinc(II) malonates with photo-sensitive and photo-insensitive <i>N</i>,<i>N</i>'-containing linkers
IUCrJ, 2018, 5
1549164 CIFC22 H24 N2 O8 ZnC 1 2/c 118.0211; 5.8795; 21.7192
90; 113.89; 90		2104.1Zorina-Tikhonova, Ekaterina N.; Chistyakov, Aleksandr S.; Kiskin, Mikhail A.; Sidorov, Aleksei A.; Dorovatovskii, Pavel V.; Zubavichus, Yan V.; Voronova, Eugenia D.; Godovikov, Ivan A.; Korlyukov, Alexander A.; Eremenko, Igor L.; Vologzhanina, Anna V.
Exploitation of knowledge databases in the synthesis of zinc(II) malonates with photo-sensitive and photo-insensitive <i>N</i>,<i>N</i>'-containing linkers
IUCrJ, 2018, 5
1549165 CIFC17 H20 N2 O5 ZnP 1 21/c 18.4434; 10.3811; 21.551
90; 115.928; 90		1698.8Zorina-Tikhonova, Ekaterina N.; Chistyakov, Aleksandr S.; Kiskin, Mikhail A.; Sidorov, Aleksei A.; Dorovatovskii, Pavel V.; Zubavichus, Yan V.; Voronova, Eugenia D.; Godovikov, Ivan A.; Korlyukov, Alexander A.; Eremenko, Igor L.; Vologzhanina, Anna V.
Exploitation of knowledge databases in the synthesis of zinc(II) malonates with photo-sensitive and photo-insensitive <i>N</i>,<i>N</i>'-containing linkers
IUCrJ, 2018, 5
1549166 CIFC22 H24 N3 O5 ZnP 1 21/c 111.1832; 8.2422; 23.832
90; 99.143; 90		2168.8Zorina-Tikhonova, Ekaterina N.; Chistyakov, Aleksandr S.; Kiskin, Mikhail A.; Sidorov, Aleksei A.; Dorovatovskii, Pavel V.; Zubavichus, Yan V.; Voronova, Eugenia D.; Godovikov, Ivan A.; Korlyukov, Alexander A.; Eremenko, Igor L.; Vologzhanina, Anna V.
Exploitation of knowledge databases in the synthesis of zinc(II) malonates with photo-sensitive and photo-insensitive <i>N</i>,<i>N</i>'-containing linkers
IUCrJ, 2018, 5
1549167 CIFC34 H50 N4 O14 ZnC 1 2/c 122.6008; 11.4154; 17.1552
90; 120.308; 90		3821.1Zorina-Tikhonova, Ekaterina N.; Chistyakov, Aleksandr S.; Kiskin, Mikhail A.; Sidorov, Aleksei A.; Dorovatovskii, Pavel V.; Zubavichus, Yan V.; Voronova, Eugenia D.; Godovikov, Ivan A.; Korlyukov, Alexander A.; Eremenko, Igor L.; Vologzhanina, Anna V.
Exploitation of knowledge databases in the synthesis of zinc(II) malonates with photo-sensitive and photo-insensitive <i>N</i>,<i>N</i>'-containing linkers
IUCrJ, 2018, 5
1549168 CIFC22 H22.5 N2.5 O4 ZnC m c m9.8266; 22.0654; 22.1641
90; 90; 90		4805.8Zorina-Tikhonova, Ekaterina N.; Chistyakov, Aleksandr S.; Kiskin, Mikhail A.; Sidorov, Aleksei A.; Dorovatovskii, Pavel V.; Zubavichus, Yan V.; Voronova, Eugenia D.; Godovikov, Ivan A.; Korlyukov, Alexander A.; Eremenko, Igor L.; Vologzhanina, Anna V.
Exploitation of knowledge databases in the synthesis of zinc(II) malonates with photo-sensitive and photo-insensitive <i>N</i>,<i>N</i>'-containing linkers
IUCrJ, 2018, 5
1549169 CIFC22 H22.5 N2.5 O4 ZnP b c n9.845; 22.082; 21.905
90; 90; 90		4762Zorina-Tikhonova, Ekaterina N.; Chistyakov, Aleksandr S.; Kiskin, Mikhail A.; Sidorov, Aleksei A.; Dorovatovskii, Pavel V.; Zubavichus, Yan V.; Voronova, Eugenia D.; Godovikov, Ivan A.; Korlyukov, Alexander A.; Eremenko, Igor L.; Vologzhanina, Anna V.
Exploitation of knowledge databases in the synthesis of zinc(II) malonates with photo-sensitive and photo-insensitive <i>N</i>,<i>N</i>'-containing linkers
IUCrJ, 2018, 5
1549170 CIFC38 H48 N4 O12 ZnC 1 2/m 122.881; 6.8976; 14.1573
90; 117.532; 90		1981.3Zorina-Tikhonova, Ekaterina N.; Chistyakov, Aleksandr S.; Kiskin, Mikhail A.; Sidorov, Aleksei A.; Dorovatovskii, Pavel V.; Zubavichus, Yan V.; Voronova, Eugenia D.; Godovikov, Ivan A.; Korlyukov, Alexander A.; Eremenko, Igor L.; Vologzhanina, Anna V.
Exploitation of knowledge databases in the synthesis of zinc(II) malonates with photo-sensitive and photo-insensitive <i>N</i>,<i>N</i>'-containing linkers
IUCrJ, 2018, 5
1549171 CIFC38 H48 N4 O12 ZnC 1 2/c 126.8028; 6.8933; 23.069
90; 110.021; 90		4004.6Zorina-Tikhonova, Ekaterina N.; Chistyakov, Aleksandr S.; Kiskin, Mikhail A.; Sidorov, Aleksei A.; Dorovatovskii, Pavel V.; Zubavichus, Yan V.; Voronova, Eugenia D.; Godovikov, Ivan A.; Korlyukov, Alexander A.; Eremenko, Igor L.; Vologzhanina, Anna V.
Exploitation of knowledge databases in the synthesis of zinc(II) malonates with photo-sensitive and photo-insensitive <i>N</i>,<i>N</i>'-containing linkers
IUCrJ, 2018, 5
1549172 CIFC19 H22.75 N2 O4.38 ZnC 2 2 2124.662; 37.18; 8.7826
90; 90; 90		8053.1Zorina-Tikhonova, Ekaterina N.; Chistyakov, Aleksandr S.; Kiskin, Mikhail A.; Sidorov, Aleksei A.; Dorovatovskii, Pavel V.; Zubavichus, Yan V.; Voronova, Eugenia D.; Godovikov, Ivan A.; Korlyukov, Alexander A.; Eremenko, Igor L.; Vologzhanina, Anna V.
Exploitation of knowledge databases in the synthesis of zinc(II) malonates with photo-sensitive and photo-insensitive <i>N</i>,<i>N</i>'-containing linkers
IUCrJ, 2018, 5
1549175 CIFC12 H8 S3P 1 21/n 143.822; 5.689; 48.331
90; 106.79; 90		11535Resel, Roland; Jones, Andrew O. F.; Schweicher, Guillaume; Fischer, Roland; Demitri, Nicola; Geerts, Yves Henri
Polymorphism of terthiophene with surface confinement
IUCrJ, 2018, 5
1549229 CIFC16 H21 N7 O3 SP -110.8022; 13.9084; 14.6076
115.284; 109.088; 90.525		1846.65Rehman, Abida; Delori, Amit; Hughes, David S.; Jones, William
Structural studies of crystalline forms of triamterene with carboxylic acid, GRAS and API molecules
IUCrJ, 2018, 5
1549230 CIFC18 H23 N7 O5 SP 1 21/c 113.5226; 14.9966; 10.6958
90; 104.179; 90		2102.95Rehman, Abida; Delori, Amit; Hughes, David S.; Jones, William
Structural studies of crystalline forms of triamterene with carboxylic acid, GRAS and API molecules
IUCrJ, 2018, 5
1549231 CIFC34 H44 N14 O6 S2P -111.0286; 13.7429; 14.9742
115.247; 109.951; 90.122		1900.25Rehman, Abida; Delori, Amit; Hughes, David S.; Jones, William
Structural studies of crystalline forms of triamterene with carboxylic acid, GRAS and API molecules
IUCrJ, 2018, 5
1549232 CIFC35 H46 N14 O6 S2P -114.075; 14.8889; 19.635
86.408; 88.142; 71.702		3898.7Rehman, Abida; Delori, Amit; Hughes, David S.; Jones, William
Structural studies of crystalline forms of triamterene with carboxylic acid, GRAS and API molecules
IUCrJ, 2018, 5
1549233 CIFC37 H50 N14 O6 S2P 1 21/n 115.0338; 11.5004; 24.396
90; 104.539; 90		4082.87Rehman, Abida; Delori, Amit; Hughes, David S.; Jones, William
Structural studies of crystalline forms of triamterene with carboxylic acid, GRAS and API molecules
IUCrJ, 2018, 5
1549234 CIFC34 H39 N15 O4 S2P 1 21/n 114.8461; 12.3081; 21.285
90; 105.176; 90		3753.71Rehman, Abida; Delori, Amit; Hughes, David S.; Jones, William
Structural studies of crystalline forms of triamterene with carboxylic acid, GRAS and API molecules
IUCrJ, 2018, 5
1549235 CIFC39 H46 N14 O3 SP -111.2398; 13.2439; 15.4624
113.595; 103.527; 91.977		2029.46Rehman, Abida; Delori, Amit; Hughes, David S.; Jones, William
Structural studies of crystalline forms of triamterene with carboxylic acid, GRAS and API molecules
IUCrJ, 2018, 5
1549267 CIFC26 H15 N5 OP -19.3241; 9.5329; 12.0593
83.218; 66.653; 80.098		967.99Ostrowska, Katarzyna; Ceresoli, Davide; Stadnicka, Katarzyna; Gryl, Marlena; Cazzaniga, Marco; Soave, Raffaella; Musielak, Bogdan; Witek, Łukasz J.; Goszczycki, Piotr; Grolik, Jarosław; Turek, Andrzej M.
π‒π-Induced aggregation and single-crystal fluorescence anisotropy of 5,6,10b-triazaacephenanthrylene
IUCrJ, 2018, 5
1549268 CIFC26 H15 N5 OP -19.2504; 9.4009; 11.9245
84.147; 67.347; 81.113		944.47Ostrowska, Katarzyna; Ceresoli, Davide; Stadnicka, Katarzyna; Gryl, Marlena; Cazzaniga, Marco; Soave, Raffaella; Musielak, Bogdan; Witek, Łukasz J.; Goszczycki, Piotr; Grolik, Jarosław; Turek, Andrzej M.
π‒π-Induced aggregation and single-crystal fluorescence anisotropy of 5,6,10b-triazaacephenanthrylene
IUCrJ, 2018, 5
1549525 CIFC4 H6 Cl N3 OP 1 21/n 18.1481; 6.8774; 10.9947
90; 95.97; 90		612.777Kumar, Prashant; Cabaj, Malgorzata Katarzyna; Pazio, Aleksandra; Dominiak, Paulina Maria
Protonated nucleobases are not fully ionized in their chloride salt crystals and form metastable base pairs further stabilized by the surrounding anions
IUCrJ, 2018, 5
1549526 CIFC5 H7 Cl N5 O0.5P 1 2/n 18.6936; 4.8189; 17.6971
90; 93.526; 90		739.992Kumar, Prashant; Cabaj, Malgorzata Katarzyna; Pazio, Aleksandra; Dominiak, Paulina Maria
Protonated nucleobases are not fully ionized in their chloride salt crystals and form metastable base pairs further stabilized by the surrounding anions
IUCrJ, 2018, 5
1549527 CIFC2.5 H3.5 Cl N2.5 O0.5P n m a13.5939; 6.4841; 9.86
90; 90; 90		869.1Kumar, Prashant; Cabaj, Malgorzata Katarzyna; Pazio, Aleksandra; Dominiak, Paulina Maria
Protonated nucleobases are not fully ionized in their chloride salt crystals and form metastable base pairs further stabilized by the surrounding anions
IUCrJ, 2018, 5
1549598 CIF
Paper		Al4.857 O9.571 Si1.143P b a m7.5787; 7.6707; 2.8836
90; 90; 90		167.635Klar, Paul Benjamin; Etxebarria, Iñigo; Madariaga, Gotzon
Exploiting superspace to clarify vacancy and Al/Si ordering in mullite
IUCrJ, 2018, 5
1549599 CIF
Paper		Al4.832 O9.584 Si1.168P b a m7.577; 7.6727; 2.8804
90; 90; 90		167.46Klar, Paul Benjamin; Etxebarria, Iñigo; Madariaga, Gotzon
Exploiting superspace to clarify vacancy and Al/Si ordering in mullite
IUCrJ, 2018, 5
1549600 CIF
Paper		Al4.868 O9.566 Si1.132P b a m7.5768; 7.676; 2.8833
90; 90; 90		167.69Klar, Paul Benjamin; Etxebarria, Iñigo; Madariaga, Gotzon
Exploiting superspace to clarify vacancy and Al/Si ordering in mullite
IUCrJ, 2018, 5
1549601 CIF
Paper		Al4.853 O9.574 Si1.147P b a m7.577; 7.6738; 2.8823
90; 90; 90		167.59Klar, Paul Benjamin; Etxebarria, Iñigo; Madariaga, Gotzon
Exploiting superspace to clarify vacancy and Al/Si ordering in mullite
IUCrJ, 2018, 5
1549602 CIFC52 H24 F16 I4 N4P 1 21/c 113.0184; 9.7153; 19.986
90; 104.649; 90		2445.6Sinnwell, Michael A.; Blad, Jared N.; Thomas, Logan R.; MacGillivray, Leonard R.
Structural flexibility of halogen bonds showed in a single-crystal-to-single-crystal [2+2] photodimerization
IUCrJ, 2018, 5
1549603 CIFC52 H24 F16 I4 N4P 1 21/c 112.9647; 10.2219; 19.519
90; 109.387; 90		2440.1Sinnwell, Michael A.; Blad, Jared N.; Thomas, Logan R.; MacGillivray, Leonard R.
Structural flexibility of halogen bonds showed in a single-crystal-to-single-crystal [2+2] photodimerization
IUCrJ, 2018, 5
1549713 CIFC42 H46 Mn0.5 N6 O14 S2P -19.7187; 11.2496; 21.8708
88.401; 83.848; 64.446		2144.39Fidalgo-Marijuan, Arkaitz; Amayuelas, Eder; Barandika, Gotzone; Larrea, Edurne S.; Bazán, Begoña; Urtiaga, Miren Karmele; Iglesias, Marta; Arriortua, María Isabel
Double role of metalloporphyrins in catalytic bioinspired supramolecular metal‒organic frameworks (SMOFs)
IUCrJ, 2018, 5
1549881 CIFC13 H8 Br N O SeP 1 21/n 17.6043; 13.4161; 11.8847
90; 103.676; 90		1178.1Shukla, Rahul; Claiser, Nicolas; Souhassou, Mohamed; Lecomte, Claude; Balkrishna, Shah Jaimin; Kumar, Sangit; Chopra, Deepak
Exploring the simultaneous σ-hole/π-hole bonding characteristics of a Br···π interaction in an ebselen derivative <i>via</i> experimental and theoretical electron-density analysis
IUCrJ, 2018, 5, 647-653
1549947 CIFC10 H12 N2P c a m8.99566; 21.5226; 9.8982
90; 90; 90		1916.39Zuñiga, Fco. Javier; Cruz-Cabeza, Aurora J.; Aretxabaleta, Xabier M.; de la Pinta, Noelia; Breczewski, Tomasz; Quesada-Moreno, María Mar; Avilés-Moreno, Juan Ramón; López-González, Juan Jesús; Claramunt, Rosa M.; Elguero, Jose
Conformational aspects of polymorphs and phases of 2-propyl-1<i>H</i>-benzimidazole
IUCrJ, 2018, 5
1549948 CIFC10 H12 N2P c a 219.0006; 20.7778; 9.7487
90; 90; 90		1823.13Zuñiga, Fco. Javier; Cruz-Cabeza, Aurora J.; Aretxabaleta, Xabier M.; de la Pinta, Noelia; Breczewski, Tomasz; Quesada-Moreno, María Mar; Avilés-Moreno, Juan Ramón; López-González, Juan Jesús; Claramunt, Rosa M.; Elguero, Jose
Conformational aspects of polymorphs and phases of 2-propyl-1<i>H</i>-benzimidazole
IUCrJ, 2018, 5
1549949 CIFC10 H12 N2P n a 218.6825; 42.095; 9.7523
90; 90; 90		3564.4Zuñiga, Fco. Javier; Cruz-Cabeza, Aurora J.; Aretxabaleta, Xabier M.; de la Pinta, Noelia; Breczewski, Tomasz; Quesada-Moreno, María Mar; Avilés-Moreno, Juan Ramón; López-González, Juan Jesús; Claramunt, Rosa M.; Elguero, Jose
Conformational aspects of polymorphs and phases of 2-propyl-1<i>H</i>-benzimidazole
IUCrJ, 2018, 5
1550099 CIFC31 H34 N2 O5P 1 21/c 111.0695; 17.736; 13.5179
90; 97.3794; 90		2631.97Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550100 CIFC31 H34 N2 O6P 1 21/c 111.235; 17.6516; 13.4798
90; 96.269; 90		2657.27Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550101 CIFC31 H34 N2 O7P 1 21/c 111.3258; 17.8349; 13.4077
90; 95.8; 90		2694.4Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550102 CIFC31 H34 N2 O7P 1 21/c 110.843; 17.862; 13.913
90; 91.715; 90		2693.4Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550103 CIFC31 H34 N2 O7P 1 21 111.4733; 17.6286; 13.653
90; 93.29; 90		2756.88Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550104 CIFC31 H34 N2 O5.9P 1 21/c 111.197; 17.627; 13.199
90; 96.347; 90		2589.1Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550105 CIFC31 H34.42 N2 O6.42P 1 21/c 111.282; 17.856; 13.46
90; 96.06; 90		2696.4Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550106 CIFC62 H67.84 N4 O11.72P 1 21 111.346; 17.508; 13.4
90; 98.15; 90		2635Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550107 CIFC31 H34 N2 O6.51P 1 21/c 111.253; 17.66; 13.247
90; 95.787; 90		2619.1Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550108 CIFC31 H34.55 N2 O6.14P 1 21/c 111.176; 17.608; 13.305
90; 95.426; 90		2606.5Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550109 CIFC31 H34 N2 O6.47P 1 21/c 111.487; 17.514; 13.31
90; 95.95; 90		2663Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550110 CIFC31 H34 N2 O7P 1 21/c 111.195; 17.69; 13.449
90; 94.4; 90		2656Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550111 CIFC31 H33 N2 O7P 1 21/c 111.475; 17.669; 13.248
90; 94.87; 90		2676Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550112 CIFC31 H34.12 N2 O6.33P 1 21/c 111.296; 17.807; 13.459
90; 95.99; 90		2692.5Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550113 CIFC31 H34 N2 O6.17P 1 21/c 111.199; 17.71; 13.4
90; 94.85; 90		2648Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550114 CIFC31 H34 N2 O6.27P 1 21/c 111.369; 17.66; 13.539
90; 95.632; 90		2705.2Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550115 CIFC31 H34 N2 O6.46P 1 21/c 111.102; 17.701; 13.437
90; 94.667; 90		2632Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550116 CIFC31 H34 N2 O6.4P 1 21/c 111.41; 17.772; 13.55
90; 95.891; 90		2733.1Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550117 CIFC31 H34 N2 O6.81P 1 21/c 111.405; 17.746; 13.511
90; 95.49; 90		2721.99Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550118 CIFC62 H68.91 N4 O13.03P 1 21 111.246; 17.607; 13.523
90; 94.19; 90		2671Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550119 CIFC31 H34 N2 O7P 1 21/c 111.319; 17.672; 13.391
90; 93.9; 90		2672.4Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550120 CIFC31.1 H33.33 N2 O6.35P 1 21/c 111.153; 17.701; 13.336
90; 95.232; 90		2621.8Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550121 CIFC31 H34 N2 O6.69P 1 21/c 111.404; 17.591; 13.269
90; 95.526; 90		2649Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550122 CIFC62 H67.8 N4 O12.63P 1 21 111.237; 17.571; 13.374
90; 94.584; 90		2632.2Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550123 CIFC31 H34 N2 O6.49P 1 21/c 111.279; 17.633; 13.377
90; 94.51; 90		2652Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550124 CIFC31 H34 N2 O8P 1 21/c 111.074; 17.895; 14
90; 92.859; 90		2770.9Dandela, Rambabu; Tothadi, Srinu; Marelli, Udaya Kiran; Nangia, Ashwini
Systematic synthesis of a 6-component organic-salt alloy of naftopidil, and pentanary, quaternary and ternary multicomponent crystals
IUCrJ, 2018, 5
1550146 CIF
Paper		C16 H14 O3P -16.0671; 7.5611; 13.8523
92.078; 93.838; 90.994		633.49Pawledzio, Sylwia; Makal, Anna; Trzybiński, Damian; Woźniak, Krzysztof
Crystal structure, interaction energies and experimental electron density of the popular drug ketoprophen
IUCrJ, 2018, 5
1550147 CIFC16 H14 O3P 21 21 216.113; 7.3809; 55.524
90; 90; 90		2505.2Pawledzio, Sylwia; Makal, Anna; Trzybiński, Damian; Woźniak, Krzysztof
Crystal structure, interaction energies and experimental electron density of the popular drug ketoprophen
IUCrJ, 2018, 5
1550148 CIFC16 H14 O3P 21 21 216.113; 7.3809; 55.524
90; 90; 90		2505.2Pawledzio, Sylwia; Makal, Anna; Trzybiński, Damian; Woźniak, Krzysztof
Crystal structure, interaction energies and experimental electron density of the popular drug ketoprophen
IUCrJ, 2018, 5
1550342 CIF
Paper		C15.5 H17 Cu N3.5 O5.75P 1 21/c 110.8431; 11.8835; 14.4823
90; 109.361; 90		1760.57Wang, Sujuan; Wei, Zhang-Wen; Zhang, Jianyong; Jiang, Long; Liu, Dingxin; Jiang, Ji-Jun; Si, Rui; Su, Cheng-Yong
Framework disorder and its effect on selective hysteretic sorption of a T-shaped azole-based metal‒organic framework
IUCrJ, 2019, 6
1550370 CIF
Paper		C4 H9 Co N O6P n m a8.2674; 11.66; 8.1483
90; 90; 90		785.48Canadillas-Delgado, Laura; Mazzuca, Lidia; Fabelo, Oscar; Rodriguez-Velamazan, J. Alberto; Rodriguez-Carvajal, Juan
Incommensurate structures of the [CH~3~NH~3~][Co(COOH)~3~] compound
IUCrJ, 2019, 6, 105-115
1550371 CIF
Paper		C4 H9 Co N O6P n m a8.2556; 11.6519; 8.1508
90; 90; 90		784.05Canadillas-Delgado, Laura; Mazzuca, Lidia; Fabelo, Oscar; Rodriguez-Velamazan, J. Alberto; Rodriguez-Carvajal, Juan
Incommensurate structures of the [CH~3~NH~3~][Co(COOH)~3~] compound
IUCrJ, 2019, 6, 105-115
1550372 CIF
Paper		C4 H9 Co N O6P n m a8.2702; 11.6766; 8.1631
90; 90; 90		788.29Canadillas-Delgado, Laura; Mazzuca, Lidia; Fabelo, Oscar; Rodriguez-Velamazan, J. Alberto; Rodriguez-Carvajal, Juan
Incommensurate structures of the [CH~3~NH~3~][Co(COOH)~3~] compound
IUCrJ, 2019, 6, 105-115
1550373 CIF
Paper		C4 H9 Co N O6P n m a8.2548; 11.6547; 8.1521
90; 90; 90		784.29Canadillas-Delgado, Laura; Mazzuca, Lidia; Fabelo, Oscar; Rodriguez-Velamazan, J. Alberto; Rodriguez-Carvajal, Juan
Incommensurate structures of the [CH~3~NH~3~][Co(COOH)~3~] compound
IUCrJ, 2019, 6, 105-115
1550383 CIFAl2 Eu4 F2 O8P 1 21/c 17.5885; 10.8399; 11.0776
90; 108.788; 90		862.67Morán-Ruiz, Aroa; Wain-Martin, Aritza; Orera, Alodia; Sanjuán, María Luisa; Larrañaga, Aitor; Slater, Peter R.; Arriortua, Maribel
Synthesis of new Ln~4~(Al~2~O~6~F~2~)O~2~ (Ln = Sm, Eu, Gd) phases with a cuspidine-related structure
IUCrJ, 2019, 6, 128-135
1550384 CIFAl2 F2 O8 Sm4P 1 21/c 17.6188; 10.8705; 11.1077
90; 108.805; 90		870.84Morán-Ruiz, Aroa; Wain-Martin, Aritza; Orera, Alodia; Sanjuán, María Luisa; Larrañaga, Aitor; Slater, Peter R.; Arriortua, Maribel
Synthesis of new Ln~4~(Al~2~O~6~F~2~)O~2~ (Ln = Sm, Eu, Gd) phases with a cuspidine-related structure
IUCrJ, 2019, 6, 128-135
1550439 CIFC16 H26P 1 21/n 114.3334; 5.56223; 8.53021
90; 92.0219; 90		679.65van de Streek, Jacco; Alig, Edith; Parsons, Simon; Vella-Zarb, Liana
A jumping crystal predicted with molecular dynamics and analysed with TLS refinement against powder diffraction data
IUCrJ, 2019, 6, 136-144
1550440 CIFC7 H15 Cl N2 OP 1 21 17.2588; 8.9399; 22.7927
90; 95.818; 90		1471.47Babor, Martin; Nievergelt, Philipp P.; Čejka, Jan; Zvoníček, Vít; Spingler, Bernhard
Microbatch under-oil salt screening of organic cations: single-crystal growth of active pharmaceutical ingredients
IUCrJ, 2019, 6, 145-151
1550441 CIFC7 H15 I N2 OP b c a13.4725; 9.8551; 32.7259
90; 90; 90		4345.11Babor, Martin; Nievergelt, Philipp P.; Čejka, Jan; Zvoníček, Vít; Spingler, Bernhard
Microbatch under-oil salt screening of organic cations: single-crystal growth of active pharmaceutical ingredients
IUCrJ, 2019, 6, 145-151
1550442 CIFC7 H15 Cl N2 OP 1 21 17.2902; 8.9099; 7.8789
90; 107.024; 90		489.35Babor, Martin; Nievergelt, Philipp P.; Čejka, Jan; Zvoníček, Vít; Spingler, Bernhard
Microbatch under-oil salt screening of organic cations: single-crystal growth of active pharmaceutical ingredients
IUCrJ, 2019, 6, 145-151
1550443 CIFC7 H15 Br N2 OP 1 21 17.5269; 9.1017; 7.93
90; 107.161; 90		519.08Babor, Martin; Nievergelt, Philipp P.; Čejka, Jan; Zvoníček, Vít; Spingler, Bernhard
Microbatch under-oil salt screening of organic cations: single-crystal growth of active pharmaceutical ingredients
IUCrJ, 2019, 6, 145-151
1550444 CIFC7 H15 I N2 OP 21 21 217.585; 10.8242; 13.0468
90; 90; 90		1071.16Babor, Martin; Nievergelt, Philipp P.; Čejka, Jan; Zvoníček, Vít; Spingler, Bernhard
Microbatch under-oil salt screening of organic cations: single-crystal growth of active pharmaceutical ingredients
IUCrJ, 2019, 6, 145-151
1550445 CIFC14 H30 B Cl F4 N4 O2P 21 21 219.4006; 13.2619; 16.6581
90; 90; 90		2076.76Babor, Martin; Nievergelt, Philipp P.; Čejka, Jan; Zvoníček, Vít; Spingler, Bernhard
Microbatch under-oil salt screening of organic cations: single-crystal growth of active pharmaceutical ingredients
IUCrJ, 2019, 6, 145-151
1550446 CIFC22 H27 Br N2 O4 SP 21 21 216.106; 9.0317; 42.33
90; 90; 90		2334.4Babor, Martin; Nievergelt, Philipp P.; Čejka, Jan; Zvoníček, Vít; Spingler, Bernhard
Microbatch under-oil salt screening of organic cations: single-crystal growth of active pharmaceutical ingredients
IUCrJ, 2019, 6, 145-151
1550447 CIFC22 H27 I N2 O4 SP 21 21 216.2219; 9.0228; 43.0569
90; 90; 90		2417.17Babor, Martin; Nievergelt, Philipp P.; Čejka, Jan; Zvoníček, Vít; Spingler, Bernhard
Microbatch under-oil salt screening of organic cations: single-crystal growth of active pharmaceutical ingredients
IUCrJ, 2019, 6, 145-151
1550448 CIFC22 H27 N3 O7 SP 21 21 216.3765; 8.8174; 42.942
90; 90; 90		2414.38Babor, Martin; Nievergelt, Philipp P.; Čejka, Jan; Zvoníček, Vít; Spingler, Bernhard
Microbatch under-oil salt screening of organic cations: single-crystal growth of active pharmaceutical ingredients
IUCrJ, 2019, 6, 145-151
1550449 CIFC22 H32 N2 O9.5 P SP 18.7929; 12.6645; 23.7867
82.3345; 81.4117; 89.9824		2595.2Babor, Martin; Nievergelt, Philipp P.; Čejka, Jan; Zvoníček, Vít; Spingler, Bernhard
Microbatch under-oil salt screening of organic cations: single-crystal growth of active pharmaceutical ingredients
IUCrJ, 2019, 6, 145-151
1550450 CIFC15 H24 N2 O5P 1 21 111.47377; 6.14747; 11.71348
90; 111.978; 90		766.164Babor, Martin; Nievergelt, Philipp P.; Čejka, Jan; Zvoníček, Vít; Spingler, Bernhard
Microbatch under-oil salt screening of organic cations: single-crystal growth of active pharmaceutical ingredients
IUCrJ, 2019, 6, 145-151
1550451 CIFC19 H23 Cl N6 O4P 1 21/c 112.6065; 13.0726; 12.6694
90; 106.397; 90		2003Babor, Martin; Nievergelt, Philipp P.; Čejka, Jan; Zvoníček, Vít; Spingler, Bernhard
Microbatch under-oil salt screening of organic cations: single-crystal growth of active pharmaceutical ingredients
IUCrJ, 2019, 6, 145-151
1550452 CIFC20 H23 Cl N6 O SP -112.1482; 13.1848; 13.8251
90.263; 90.218; 108.005		2105.9Babor, Martin; Nievergelt, Philipp P.; Čejka, Jan; Zvoníček, Vít; Spingler, Bernhard
Microbatch under-oil salt screening of organic cations: single-crystal growth of active pharmaceutical ingredients
IUCrJ, 2019, 6, 145-151
1550453 CIFC19 H23 B Cl F4 N5 OP 1 21/c 112.46473; 12.98315; 13.42014
90; 106.765; 90		2079.49Babor, Martin; Nievergelt, Philipp P.; Čejka, Jan; Zvoníček, Vít; Spingler, Bernhard
Microbatch under-oil salt screening of organic cations: single-crystal growth of active pharmaceutical ingredients
IUCrJ, 2019, 6, 145-151
1550454 CIFC16 H21 N O4 SP 1 21 15.72587; 20.83882; 6.92054
90; 98.3547; 90		816.998Babor, Martin; Nievergelt, Philipp P.; Čejka, Jan; Zvoníček, Vít; Spingler, Bernhard
Microbatch under-oil salt screening of organic cations: single-crystal growth of active pharmaceutical ingredients
IUCrJ, 2019, 6, 145-151
1550455 CIFC24 H38 N2 O8P 15.8213; 7.27088; 15.90214
94.7215; 96.6693; 109.525		624.781Babor, Martin; Nievergelt, Philipp P.; Čejka, Jan; Zvoníček, Vít; Spingler, Bernhard
Microbatch under-oil salt screening of organic cations: single-crystal growth of active pharmaceutical ingredients
IUCrJ, 2019, 6, 145-151
1550456 CIFC24 H38 N2 O9P 1 21 16.07189; 32.9414; 7.1383
90; 114.168; 90		1302.63Babor, Martin; Nievergelt, Philipp P.; Čejka, Jan; Zvoníček, Vít; Spingler, Bernhard
Microbatch under-oil salt screening of organic cations: single-crystal growth of active pharmaceutical ingredients
IUCrJ, 2019, 6, 145-151
1550457 CIFC10 H16 N2 O4P 1 21 16.0401; 29.3553; 7.3828
90; 112.806; 90		1206.7Babor, Martin; Nievergelt, Philipp P.; Čejka, Jan; Zvoníček, Vít; Spingler, Bernhard
Microbatch under-oil salt screening of organic cations: single-crystal growth of active pharmaceutical ingredients
IUCrJ, 2019, 6, 145-151
1550520 CIF
Paper		C12 H16 N4 O6P 1 21/c 114.0525; 7.8134; 12.8242
90; 91.848; 90		1407.34Gryl, Marlena; Rydz, Agnieszka; Wojnarska, Joanna; Krawczuk, Anna; Kozieł, Marcin; Seidler, Tomasz; Ostrowska, Katarzyna; Marzec, Monika; Stadnicka, Katarzyna Marta
Origin of chromic effects and crystal-to-crystal phase transition in the polymorphs of tyraminium violurate
IUCrJ, 2019, 6
1550521 CIF
Paper		C12 H14 N4 O5P 1 21/c 16.8711; 15.119; 11.884
90; 91.858; 90		1233.9Gryl, Marlena; Rydz, Agnieszka; Wojnarska, Joanna; Krawczuk, Anna; Kozieł, Marcin; Seidler, Tomasz; Ostrowska, Katarzyna; Marzec, Monika; Stadnicka, Katarzyna Marta
Origin of chromic effects and crystal-to-crystal phase transition in the polymorphs of tyraminium violurate
IUCrJ, 2019, 6
1550522 CIF
Paper		C12 H14 N4 O5P 1 21/c 113.2706; 7.651; 13.1269
90; 102.097; 90		1303.22Gryl, Marlena; Rydz, Agnieszka; Wojnarska, Joanna; Krawczuk, Anna; Kozieł, Marcin; Seidler, Tomasz; Ostrowska, Katarzyna; Marzec, Monika; Stadnicka, Katarzyna Marta
Origin of chromic effects and crystal-to-crystal phase transition in the polymorphs of tyraminium violurate
IUCrJ, 2019, 6
1551103 CIF
Paper		C8 H19 N O3P 1 21 19.6559; 29.8416; 30.1248
90; 98.54; 90		8584.1Khandavilli, U. B. Rao; Lusi, Matteo; Frawley, Patrick J.
Plasticity in zwitterionic drugs: the bending properties of Pregabalin and Gabapentin and their hydrates
IUCrJ, 2019, 6
1551104 CIFC8 H19 N O3C 1 2 19.566; 7.44; 15.911
90; 101.54; 90		1109.5Khandavilli, U. B. Rao; Lusi, Matteo; Frawley, Patrick J.
Plasticity in zwitterionic drugs: the bending properties of Pregabalin and Gabapentin and their hydrates
IUCrJ, 2019, 6
1551412 CIF
Paper		C16 H36 N8 Ni O13P 21 21 218.949; 15.4457; 19.2674
90; 90; 90		2663.2Christensen, Jeppe; Horton, Peter N.; Bury, Charles S.; Dickerson, Joshua L.; Taberman, Helena; Garman, Elspeth F.; Coles, Simon J.
Radiation damage in small-molecule crystallography: fact not fiction
IUCrJ, 2019, 6
1551854 CIF
Paper		C22 H19 F3 N4 O3 SP 1 21/n 114.5182; 8.2844; 17.8349
90; 93.899; 90		2140.1Bolla, Geetha; Nangia, Ashwini
Supramolecular synthon hierarchy in sulfonamide cocrystals with <i>syn</i>-amides and <i>N</i>-oxides
IUCrJ, 2019, 6
1551855 CIFC23 H21 F3 N4 O3 SP -110.0694; 10.6113; 12.6499
113.451; 100.897; 101.744		1157.9Bolla, Geetha; Nangia, Ashwini
Supramolecular synthon hierarchy in sulfonamide cocrystals with <i>syn</i>-amides and <i>N</i>-oxides
IUCrJ, 2019, 6
1551856 CIFC24 H20 F6 N4 O3 SP -17.4563; 13.01; 13.7231
100.17; 95.715; 104.444		1254.4Bolla, Geetha; Nangia, Ashwini
Supramolecular synthon hierarchy in sulfonamide cocrystals with <i>syn</i>-amides and <i>N</i>-oxides
IUCrJ, 2019, 6
1551857 CIFC23 H21 F3 N4 O4 SP -17.6112; 11.3462; 15.1063
105.897; 102.702; 101.93		1173.4Bolla, Geetha; Nangia, Ashwini
Supramolecular synthon hierarchy in sulfonamide cocrystals with <i>syn</i>-amides and <i>N</i>-oxides
IUCrJ, 2019, 6
1551858 CIFC17 H21 Cl N3 O6.5 SC 1 2/c 123.819; 8.4372; 23.45
90; 123.868; 90		3913Bolla, Geetha; Nangia, Ashwini
Supramolecular synthon hierarchy in sulfonamide cocrystals with <i>syn</i>-amides and <i>N</i>-oxides
IUCrJ, 2019, 6
1551859 CIFC18 H22 Cl N3 O6 SP -18.5442; 11.3615; 12.1409
63.447; 88.724; 75.712		1016.37Bolla, Geetha; Nangia, Ashwini
Supramolecular synthon hierarchy in sulfonamide cocrystals with <i>syn</i>-amides and <i>N</i>-oxides
IUCrJ, 2019, 6
1551860 CIFC17 H22 Cl N3 O7 SP 1 21/n 111.116; 8.447; 21.388
90; 93.12; 90		2005.3Bolla, Geetha; Nangia, Ashwini
Supramolecular synthon hierarchy in sulfonamide cocrystals with <i>syn</i>-amides and <i>N</i>-oxides
IUCrJ, 2019, 6
1551861 CIFC12 H13 Cl N4 O5 S2P 1 21/c 16.8039; 13.5399; 18.8949
90; 113.113; 90		1601Bolla, Geetha; Nangia, Ashwini
Supramolecular synthon hierarchy in sulfonamide cocrystals with <i>syn</i>-amides and <i>N</i>-oxides
IUCrJ, 2019, 6
1551862 CIFC12 H13 Cl N4 O5 S2P n a 2129.442; 7.3421; 7.0867
90; 90; 90		1531.9Bolla, Geetha; Nangia, Ashwini
Supramolecular synthon hierarchy in sulfonamide cocrystals with <i>syn</i>-amides and <i>N</i>-oxides
IUCrJ, 2019, 6
1551863 CIFC17 H26 Cl N5 O6 S2P -18.693; 10.6472; 12.8556
113.672; 98.9; 95.358		1060.61Bolla, Geetha; Nangia, Ashwini
Supramolecular synthon hierarchy in sulfonamide cocrystals with <i>syn</i>-amides and <i>N</i>-oxides
IUCrJ, 2019, 6
1551864 CIFC19 H30 Cl N5 O6 S2P b c a11.8873; 19.315; 21.733
90; 90; 90		4990Bolla, Geetha; Nangia, Ashwini
Supramolecular synthon hierarchy in sulfonamide cocrystals with <i>syn</i>-amides and <i>N</i>-oxides
IUCrJ, 2019, 6
1552087 CIF
Paper		O192 Si96P n m a19.98; 20.43; 13.61
90; 90; 90		5555.48Wang, Bin; Zou, Xiaodong; Smeets, Stef
Automated serial rotation electron diffraction combined with cluster analysis: an efficient multi-crystal workflow for structure determination
IUCrJ, 2019, 6
1552088 CIFO192 Si96P n m a20.58; 19.6; 13.74
90; 90; 90		5542.28Wang, Bin; Zou, Xiaodong; Smeets, Stef
Automated serial rotation electron diffraction combined with cluster analysis: an efficient multi-crystal workflow for structure determination
IUCrJ, 2019, 6
1552089 CIFO192 Si96P n m a20.39; 20.08; 13.57
90; 90; 90		5555.98Wang, Bin; Zou, Xiaodong; Smeets, Stef
Automated serial rotation electron diffraction combined with cluster analysis: an efficient multi-crystal workflow for structure determination
IUCrJ, 2019, 6
1552090 CIFO128 Si64C m c m18.12; 20; 7.7
90; 90; 90		2790.48Wang, Bin; Zou, Xiaodong; Smeets, Stef
Automated serial rotation electron diffraction combined with cluster analysis: an efficient multi-crystal workflow for structure determination
IUCrJ, 2019, 6
1552091 CIFO5280 Si2640I m -3 m55.07; 55.07; 55.07
90; 90; 90		167011Wang, Bin; Zou, Xiaodong; Smeets, Stef
Automated serial rotation electron diffraction combined with cluster analysis: an efficient multi-crystal workflow for structure determination
IUCrJ, 2019, 6
1552092 CIFO2880 Si1440I m -3 m45.07; 45.07; 45.07
90; 90; 90		91550.9Wang, Bin; Zou, Xiaodong; Smeets, Stef
Automated serial rotation electron diffraction combined with cluster analysis: an efficient multi-crystal workflow for structure determination
IUCrJ, 2019, 6
1552093 CIFC192 O96.16 Ti16 Zr4I -4 2 m16.5; 16.5; 29.8
90; 90; 90		8113Wang, Bin; Zou, Xiaodong; Smeets, Stef
Automated serial rotation electron diffraction combined with cluster analysis: an efficient multi-crystal workflow for structure determination
IUCrJ, 2019, 6
1552292 CIF
Paper		C13 H11 N OP c a 2123.354; 5.6449; 7.7373
90; 90; 90		1020Oburn, Shalisa M.; Sinnwell, Michael A.; Ericson, Devin P.; Reinheimer, Eric W.; Proserpio, Davide M.; Groeneman, Ryan H.; MacGillivray, Leonard
Diversifying molecular and topological space via a supramolecular solid-state synthesis: a purely organic mok net sustained by hydrogen bonds
IUCrJ, 2019, 6
1552293 CIFC15 H13 N O2P b c a10.5366; 7.4255; 31.091
90; 90; 90		2432.5Oburn, Shalisa M.; Sinnwell, Michael A.; Ericson, Devin P.; Reinheimer, Eric W.; Proserpio, Davide M.; Groeneman, Ryan H.; MacGillivray, Leonard
Diversifying molecular and topological space via a supramolecular solid-state synthesis: a purely organic mok net sustained by hydrogen bonds
IUCrJ, 2019, 6
1552294 CIFC36 H30 I2 N2 O6P -19.3954; 10.055; 19.911
101.278; 92.285; 111.552		1702.8Oburn, Shalisa M.; Sinnwell, Michael A.; Ericson, Devin P.; Reinheimer, Eric W.; Proserpio, Davide M.; Groeneman, Ryan H.; MacGillivray, Leonard
Diversifying molecular and topological space via a supramolecular solid-state synthesis: a purely organic mok net sustained by hydrogen bonds
IUCrJ, 2019, 6
1552295 CIFC36 H30 I2 N2 O6P 1 21/c 121.7663; 9.8526; 16.269
90; 102.198; 90		3410.2Oburn, Shalisa M.; Sinnwell, Michael A.; Ericson, Devin P.; Reinheimer, Eric W.; Proserpio, Davide M.; Groeneman, Ryan H.; MacGillivray, Leonard
Diversifying molecular and topological space via a supramolecular solid-state synthesis: a purely organic mok net sustained by hydrogen bonds
IUCrJ, 2019, 6
1552296 CIFC26 H22 N2 O2I 1 2/a 119.7244; 12.392; 35.75
90; 99.796; 90		8610.8Oburn, Shalisa M.; Sinnwell, Michael A.; Ericson, Devin P.; Reinheimer, Eric W.; Proserpio, Davide M.; Groeneman, Ryan H.; MacGillivray, Leonard
Diversifying molecular and topological space via a supramolecular solid-state synthesis: a purely organic mok net sustained by hydrogen bonds
IUCrJ, 2019, 6
1552401 CIF
Paper		C18 H26 N2 O2P b c a5.5482; 12.167; 24.556
90; 90; 90		1657.7Wang, Na; Huang, Xin; Chen, Lihang; Yang, Jinyue; Li, Xin; Ma, Jiayuan; Bao, Ying; Li, Fei; Yin, Qiuxiang; Hao, Hongxun
Consistency and variability of cocrystals containing positional isomers: the self-assembly evolution mechanism of supramolecular synthons of cresol‒piperazine
IUCrJ, 2019, 6
1552402 CIF
Paper		C18 H26 N2 O2P 1 21/n 15.6352; 13.4281; 11.2825
90; 93.703; 90		852Wang, Na; Huang, Xin; Chen, Lihang; Yang, Jinyue; Li, Xin; Ma, Jiayuan; Bao, Ying; Li, Fei; Yin, Qiuxiang; Hao, Hongxun
Consistency and variability of cocrystals containing positional isomers: the self-assembly evolution mechanism of supramolecular synthons of cresol‒piperazine
IUCrJ, 2019, 6
1552403 CIF
Paper		C11 H18 N2 OP 21 21 215.9035; 8.3771; 21.98
90; 90; 90		1087Wang, Na; Huang, Xin; Chen, Lihang; Yang, Jinyue; Li, Xin; Ma, Jiayuan; Bao, Ying; Li, Fei; Yin, Qiuxiang; Hao, Hongxun
Consistency and variability of cocrystals containing positional isomers: the self-assembly evolution mechanism of supramolecular synthons of cresol‒piperazine
IUCrJ, 2019, 6
1556577 CIFC2 H5 N O2P 1 21/n 15.223; 12.435; 5.563
90; 111.14; 90		336.99Broadhurst, Edward T.; Xu, Hongyi; Clabbers, Max T. B.; Lightowler, Molly; Nudelman, Fabio; Zou, Xiaodong; Parsons, Simon
Polymorph evolution during crystal growth studied by 3D electron diffraction
IUCrJ, 2020, 7, 5-9
1556578 CIFC2 H5 N O2P 1 21 15.311; 6.454; 5.694
90; 112.86; 90		179.84Broadhurst, Edward T.; Xu, Hongyi; Clabbers, Max T. B.; Lightowler, Molly; Nudelman, Fabio; Zou, Xiaodong; Parsons, Simon
Polymorph evolution during crystal growth studied by 3D electron diffraction
IUCrJ, 2020, 7, 5-9
1556579 CIFC2 H5 N O2P 317.395; 7.395; 5.75
90; 90; 120		272.32Broadhurst, Edward T.; Xu, Hongyi; Clabbers, Max T. B.; Lightowler, Molly; Nudelman, Fabio; Zou, Xiaodong; Parsons, Simon
Polymorph evolution during crystal growth studied by 3D electron diffraction
IUCrJ, 2020, 7, 5-9
1556729 CIFBa0.45 Ce1.04 K0.55 Na5.62 O76.74 Si18.76 Ti6C 1 2/c 135.908; 27.784; 33.126
90; 96.494; 90		32837Zolotarev, Jr, Andrey A.; Krivovichev, Sergey V.; Cámara, Fernando; Bindi, Luca; Zhitova, Elena S.; Hawthorne, Frank; Sokolova, Elena
Extraordinary structural complexity of ilmajokite: a multilevel hierarchical framework structure of natural origin
IUCrJ, 2020, 7, 121-128
1556730 CIFC20 H24 O2P 21 21 219.959; 11.731; 12.842
90; 90; 90		1500.3Fatima, Syeda Saima; Kumar, Rajesh; Choudhary, M. Iqbal; Yousuf, Sammer
Crystal engineering of exemestane to obtain a co-crystal with enhanced urease inhibition activity
IUCrJ, 2020, 7, 105-112
1556731 CIFC21 H28 N2 O2 SP 1 21 110.3797; 8.3706; 10.7275
90; 105.568; 90		897.9Fatima, Syeda Saima; Kumar, Rajesh; Choudhary, M. Iqbal; Yousuf, Sammer
Crystal engineering of exemestane to obtain a co-crystal with enhanced urease inhibition activity
IUCrJ, 2020, 7, 105-112
1556736 CIF
Paper		C13 H22 S Si2P -17.2016; 9.7603; 12.2829
95.4952; 92.51; 101.346		840.86Lumpi, Daniel; Kautny, Paul; Stöger, Berthold; Fröhlich, Johannes
Crystal chemistry of layered structures formed by linear rigid silyl-capped molecules.
IUCrJ, 2015, 2, 584-600
1556737 CIFC22 H30 S2 Si2C 1 2/c 134.148; 6.869; 10.3442
90; 98.343; 90		2400.7Lumpi, Daniel; Kautny, Paul; Stöger, Berthold; Fröhlich, Johannes
Crystal chemistry of layered structures formed by linear rigid silyl-capped molecules.
IUCrJ, 2015, 2, 584-600
1556738 CIFC22 H30 O4 S2 Si2P -16.8197; 12.1073; 16.1123
92.3607; 93.9781; 98.3425		1311.34Lumpi, Daniel; Kautny, Paul; Stöger, Berthold; Fröhlich, Johannes
Crystal chemistry of layered structures formed by linear rigid silyl-capped molecules.
IUCrJ, 2015, 2, 584-600
1556739 CIFC22 H30 O4 S2 Si2P -17.3096; 11.3935; 18.7425
73.167; 105.319; 118.926		1293.21Lumpi, Daniel; Kautny, Paul; Stöger, Berthold; Fröhlich, Johannes
Crystal chemistry of layered structures formed by linear rigid silyl-capped molecules.
IUCrJ, 2015, 2, 584-600
1556740 CIFC22 H30 O4 S2 Si2P -15.73; 10.2961; 10.9801
85.9433; 79.7181; 80.115		627.39Lumpi, Daniel; Kautny, Paul; Stöger, Berthold; Fröhlich, Johannes
Crystal chemistry of layered structures formed by linear rigid silyl-capped molecules.
IUCrJ, 2015, 2, 584-600
1556741 CIFC22 H32 O2 S3 Si2C 1 2/c 134.344; 8.1665; 20.0791
90; 100.532; 90		5536.7Lumpi, Daniel; Kautny, Paul; Stöger, Berthold; Fröhlich, Johannes
Crystal chemistry of layered structures formed by linear rigid silyl-capped molecules.
IUCrJ, 2015, 2, 584-600
1556742 CIFC22 H32 O2 S3 Si2P c c n33.63; 8.271; 19.717
90; 90; 90		5484Lumpi, Daniel; Kautny, Paul; Stöger, Berthold; Fröhlich, Johannes
Crystal chemistry of layered structures formed by linear rigid silyl-capped molecules.
IUCrJ, 2015, 2, 584-600
1556743 CIFC22 H30 O2 S3 Si2C 1 2/c 131.8766; 8.4003; 10.0737
90; 95.684; 90		2684.2Lumpi, Daniel; Kautny, Paul; Stöger, Berthold; Fröhlich, Johannes
Crystal chemistry of layered structures formed by linear rigid silyl-capped molecules.
IUCrJ, 2015, 2, 584-600
1556744 CIFC22 H30 O8 S3 Si2P -110.5399; 13.8276; 19.9987
79.94; 84.589; 89.771		2856.81Lumpi, Daniel; Kautny, Paul; Stöger, Berthold; Fröhlich, Johannes
Crystal chemistry of layered structures formed by linear rigid silyl-capped molecules.
IUCrJ, 2015, 2, 584-600
1556745 CIFC22 H38 S2 Si2P 21 21 217.7849; 10.5146; 31.2712
90; 90; 90		2559.7Lumpi, Daniel; Kautny, Paul; Stöger, Berthold; Fröhlich, Johannes
Crystal chemistry of layered structures formed by linear rigid silyl-capped molecules.
IUCrJ, 2015, 2, 584-600
1556746 CIFC20 H28 S3 Si2I 1 2/c 134.443; 6.7415; 10.1978
90; 96.889; 90		2350.8Lumpi, Daniel; Kautny, Paul; Stöger, Berthold; Fröhlich, Johannes
Crystal chemistry of layered structures formed by linear rigid silyl-capped molecules.
IUCrJ, 2015, 2, 584-600
1556747 CIFCu1.95 SeR -3 m :H4.0922; 4.0922; 20.459
90; 90; 120		296.71Eikeland, Espen; Blichfeld, Anders B.; Borup, Kasper A.; Zhao, Kunpeng; Overgaard, Jacob; Shi, Xun; Chen, Lidong; Iversen, Bo B.
Crystal structure across the β to α phase transition in thermoelectric Cu<sub>2-<i>x</i></sub> Se.
IUCrJ, 2017, 4, 476-485
1556748 CIFCu1.95 SeR -3 m :H4.1227; 4.1227; 20.449
90; 90; 120		301Eikeland, Espen; Blichfeld, Anders B.; Borup, Kasper A.; Zhao, Kunpeng; Overgaard, Jacob; Shi, Xun; Chen, Lidong; Iversen, Bo B.
Crystal structure across the β to α phase transition in thermoelectric Cu<sub>2-<i>x</i></sub> Se.
IUCrJ, 2017, 4, 476-485
1556749 CIFCu1.95 SeR -3 m :H4.1299; 4.1299; 20.393
90; 90; 120		301.22Eikeland, Espen; Blichfeld, Anders B.; Borup, Kasper A.; Zhao, Kunpeng; Overgaard, Jacob; Shi, Xun; Chen, Lidong; Iversen, Bo B.
Crystal structure across the β to α phase transition in thermoelectric Cu<sub>2-<i>x</i></sub> Se.
IUCrJ, 2017, 4, 476-485
1556750 CIFCu1.95 SeR -3 m :H4.1323; 4.1323; 20.358
90; 90; 120		301.06Eikeland, Espen; Blichfeld, Anders B.; Borup, Kasper A.; Zhao, Kunpeng; Overgaard, Jacob; Shi, Xun; Chen, Lidong; Iversen, Bo B.
Crystal structure across the β to α phase transition in thermoelectric Cu<sub>2-<i>x</i></sub> Se.
IUCrJ, 2017, 4, 476-485
1556751 CIFCu1.95 SeR -3 m :H4.1327; 4.1327; 20.281
90; 90; 120		299.98Eikeland, Espen; Blichfeld, Anders B.; Borup, Kasper A.; Zhao, Kunpeng; Overgaard, Jacob; Shi, Xun; Chen, Lidong; Iversen, Bo B.
Crystal structure across the β to α phase transition in thermoelectric Cu<sub>2-<i>x</i></sub> Se.
IUCrJ, 2017, 4, 476-485
1556752 CIFCu1.95 SeF m -3 m5.8449; 5.8449; 5.8449
90; 90; 90		199.678Eikeland, Espen; Blichfeld, Anders B.; Borup, Kasper A.; Zhao, Kunpeng; Overgaard, Jacob; Shi, Xun; Chen, Lidong; Iversen, Bo B.
Crystal structure across the β to α phase transition in thermoelectric Cu<sub>2-<i>x</i></sub> Se.
IUCrJ, 2017, 4, 476-485
1556753 CIFCu1.94 SeF m -3 m5.8538; 5.8538; 5.8538
90; 90; 90		200.592Eikeland, Espen; Blichfeld, Anders B.; Borup, Kasper A.; Zhao, Kunpeng; Overgaard, Jacob; Shi, Xun; Chen, Lidong; Iversen, Bo B.
Crystal structure across the β to α phase transition in thermoelectric Cu<sub>2-<i>x</i></sub> Se.
IUCrJ, 2017, 4, 476-485
1556754 CIFCu1.77 SeR -3 m :H4.1017; 4.1017; 20.42
90; 90; 120		297.52Eikeland, Espen; Blichfeld, Anders B.; Borup, Kasper A.; Zhao, Kunpeng; Overgaard, Jacob; Shi, Xun; Chen, Lidong; Iversen, Bo B.
Crystal structure across the β to α phase transition in thermoelectric Cu<sub>2-<i>x</i></sub> Se.
IUCrJ, 2017, 4, 476-485
1556755 CIFCu1.89 SeR -3 m :H4.1019; 4.1019; 20.533
90; 90; 120		299.2Eikeland, Espen; Blichfeld, Anders B.; Borup, Kasper A.; Zhao, Kunpeng; Overgaard, Jacob; Shi, Xun; Chen, Lidong; Iversen, Bo B.
Crystal structure across the β to α phase transition in thermoelectric Cu<sub>2-<i>x</i></sub> Se.
IUCrJ, 2017, 4, 476-485
1556756 CIFNi Se5 Ta2C m c m3.5029; 12.8699; 15.6768
90; 90; 90		706.74Nakano, Akitoshi; Sugawara, Kento; Tamura, Shinya; Katayama, Naoyuki; Matsubayashi, Kazuyuki; Okada, Taku; Uwatoko, Yoshiya; Munakata, Kouji; Nakao, Akiko; Sagayama, Hajime; Kumai, Reiji; Sugimoto, Kunihisa; Maejima, Naoyuki; Machida, Akihiko; Watanuki, Tetsu; Sawa, Hiroshi
Pressure-induced coherent sliding-layer transition in the excitonic insulator Ta<sub>2</sub>NiSe<sub>5</sub>.
IUCrJ, 2018, 5, 158-165
1556757 CIFNi Se5 Ta2C m c m3.4375; 12.375; 15.4437
90; 90; 90		656.96Nakano, Akitoshi; Sugawara, Kento; Tamura, Shinya; Katayama, Naoyuki; Matsubayashi, Kazuyuki; Okada, Taku; Uwatoko, Yoshiya; Munakata, Kouji; Nakao, Akiko; Sagayama, Hajime; Kumai, Reiji; Sugimoto, Kunihisa; Maejima, Naoyuki; Machida, Akihiko; Watanuki, Tetsu; Sawa, Hiroshi
Pressure-induced coherent sliding-layer transition in the excitonic insulator Ta<sub>2</sub>NiSe<sub>5</sub>.
IUCrJ, 2018, 5, 158-165
1556758 CIFNi Se5 Ta2P m n m :23.437; 5.861; 15.512
90; 90; 90		312.48Nakano, Akitoshi; Sugawara, Kento; Tamura, Shinya; Katayama, Naoyuki; Matsubayashi, Kazuyuki; Okada, Taku; Uwatoko, Yoshiya; Munakata, Kouji; Nakao, Akiko; Sagayama, Hajime; Kumai, Reiji; Sugimoto, Kunihisa; Maejima, Naoyuki; Machida, Akihiko; Watanuki, Tetsu; Sawa, Hiroshi
Pressure-induced coherent sliding-layer transition in the excitonic insulator Ta<sub>2</sub>NiSe<sub>5</sub>.
IUCrJ, 2018, 5, 158-165
1556759 CIFNi Se5 Ta2P 1 2/n 13.437; 5.849; 15.512
90; 90.53; 90		311.8Nakano, Akitoshi; Sugawara, Kento; Tamura, Shinya; Katayama, Naoyuki; Matsubayashi, Kazuyuki; Okada, Taku; Uwatoko, Yoshiya; Munakata, Kouji; Nakao, Akiko; Sagayama, Hajime; Kumai, Reiji; Sugimoto, Kunihisa; Maejima, Naoyuki; Machida, Akihiko; Watanuki, Tetsu; Sawa, Hiroshi
Pressure-induced coherent sliding-layer transition in the excitonic insulator Ta<sub>2</sub>NiSe<sub>5</sub>.
IUCrJ, 2018, 5, 158-165
1556760 CIFC11 H11 N O5P -16.5133; 8.1853; 11.4965
103.458; 93.925; 113.018		539.85Kaur, Ramanpreet; Gautam, Raj; Cherukuvada, Suryanarayan; Guru Row, Tayur N.
Do carboximide-carboxylic acid combinations form co-crystals? The role of hydroxyl substitution on the formation of co-crystals and eutectics.
IUCrJ, 2015, 2, 341-351
1556761 CIFC11 H11 N O6P -16.7358; 6.9119; 12.3937
74.468; 85.298; 73.28		532.43Kaur, Ramanpreet; Gautam, Raj; Cherukuvada, Suryanarayan; Guru Row, Tayur N.
Do carboximide-carboxylic acid combinations form co-crystals? The role of hydroxyl substitution on the formation of co-crystals and eutectics.
IUCrJ, 2015, 2, 341-351
1556762 CIFC18 H17 N O10P 1 21/c 16.7323; 12.1142; 21.2077
90; 97.146; 90		1716.19Kaur, Ramanpreet; Gautam, Raj; Cherukuvada, Suryanarayan; Guru Row, Tayur N.
Do carboximide-carboxylic acid combinations form co-crystals? The role of hydroxyl substitution on the formation of co-crystals and eutectics.
IUCrJ, 2015, 2, 341-351
1556763 CIFC15 H16 N2 O9P 21 21 217.0213; 8.8214; 25.1416
90; 90; 90		1557.21Kaur, Ramanpreet; Gautam, Raj; Cherukuvada, Suryanarayan; Guru Row, Tayur N.
Do carboximide-carboxylic acid combinations form co-crystals? The role of hydroxyl substitution on the formation of co-crystals and eutectics.
IUCrJ, 2015, 2, 341-351
1556764 CIFC15 H16 N2 O9P -14.9225; 11.7839; 13.854
97.248; 96.773; 90.663		791.35Kaur, Ramanpreet; Gautam, Raj; Cherukuvada, Suryanarayan; Guru Row, Tayur N.
Do carboximide-carboxylic acid combinations form co-crystals? The role of hydroxyl substitution on the formation of co-crystals and eutectics.
IUCrJ, 2015, 2, 341-351
1556765 CIFC25 H29 N O17P -19.3161; 11.2092; 13.7362
102.926; 104.398; 96.571		1332.01Kaur, Ramanpreet; Gautam, Raj; Cherukuvada, Suryanarayan; Guru Row, Tayur N.
Do carboximide-carboxylic acid combinations form co-crystals? The role of hydroxyl substitution on the formation of co-crystals and eutectics.
IUCrJ, 2015, 2, 341-351
1556766 CIFC11 H9 N O5P 1 21/n 110.8426; 6.5202; 16.1326
90; 106.391; 90		1094.16Kaur, Ramanpreet; Gautam, Raj; Cherukuvada, Suryanarayan; Guru Row, Tayur N.
Do carboximide-carboxylic acid combinations form co-crystals? The role of hydroxyl substitution on the formation of co-crystals and eutectics.
IUCrJ, 2015, 2, 341-351
1556767 CIFC11 H9 N O6I 1 2/a 112.5506; 6.6807; 26.1586
90; 98.815; 90		2167.41Kaur, Ramanpreet; Gautam, Raj; Cherukuvada, Suryanarayan; Guru Row, Tayur N.
Do carboximide-carboxylic acid combinations form co-crystals? The role of hydroxyl substitution on the formation of co-crystals and eutectics.
IUCrJ, 2015, 2, 341-351
1556768 CIFC25 H27 N O17P -19.3796; 10.3981; 15.6415
80.62; 72.913; 66.089		1331.3Kaur, Ramanpreet; Gautam, Raj; Cherukuvada, Suryanarayan; Guru Row, Tayur N.
Do carboximide-carboxylic acid combinations form co-crystals? The role of hydroxyl substitution on the formation of co-crystals and eutectics.
IUCrJ, 2015, 2, 341-351
1556769 CIFC19 H19 N O8P c a 2140.692; 5.4524; 16.3546
90; 90; 90		3628.6Kaur, Ramanpreet; Gautam, Raj; Cherukuvada, Suryanarayan; Guru Row, Tayur N.
Do carboximide-carboxylic acid combinations form co-crystals? The role of hydroxyl substitution on the formation of co-crystals and eutectics.
IUCrJ, 2015, 2, 341-351
1556770 CIFC12 H13 N O6P -16.6761; 9.1128; 10.9447
93.397; 107.694; 108.173		593.92Kaur, Ramanpreet; Gautam, Raj; Cherukuvada, Suryanarayan; Guru Row, Tayur N.
Do carboximide-carboxylic acid combinations form co-crystals? The role of hydroxyl substitution on the formation of co-crystals and eutectics.
IUCrJ, 2015, 2, 341-351
1556771 CIFC18 H16 N2 O2C 1 2/c 118.451; 10.54; 8.157
90; 98.824; 90		1567.5Garai, Mousumi; Biradha, Kumar
Exploration and exploitation of homologous series of bis(acrylamido)alkanes containing pyridyl and phenyl groups: β-sheet versus two-dimensional layers in solid-state photochemical [2 + 2] reactions.
IUCrJ, 2015, 2, 523-533
1556772 CIFC20 H20 N2 O2P 1 21/c 117.899; 4.8544; 9.5259
90; 101.847; 90		810.1Garai, Mousumi; Biradha, Kumar
Exploration and exploitation of homologous series of bis(acrylamido)alkanes containing pyridyl and phenyl groups: β-sheet versus two-dimensional layers in solid-state photochemical [2 + 2] reactions.
IUCrJ, 2015, 2, 523-533
1556773 CIFC24 H28 N2 O2P 1 21/c 120.243; 4.9756; 20.839
90; 99.148; 90		2072.2Garai, Mousumi; Biradha, Kumar
Exploration and exploitation of homologous series of bis(acrylamido)alkanes containing pyridyl and phenyl groups: β-sheet versus two-dimensional layers in solid-state photochemical [2 + 2] reactions.
IUCrJ, 2015, 2, 523-533
1556774 CIFC16 H14 N4 O2P 1 21/n 14.7315; 9.213; 16.39
90; 97.02; 90		709.1Garai, Mousumi; Biradha, Kumar
Exploration and exploitation of homologous series of bis(acrylamido)alkanes containing pyridyl and phenyl groups: β-sheet versus two-dimensional layers in solid-state photochemical [2 + 2] reactions.
IUCrJ, 2015, 2, 523-533
1556775 CIFC18 H26 N4 O6P 1 21/c 19.353; 10.9015; 19.9985
90; 94.547; 90		2032.7Garai, Mousumi; Biradha, Kumar
Exploration and exploitation of homologous series of bis(acrylamido)alkanes containing pyridyl and phenyl groups: β-sheet versus two-dimensional layers in solid-state photochemical [2 + 2] reactions.
IUCrJ, 2015, 2, 523-533
1556776 CIFC22 H30 N4 O4P 1 21/c 17.6364; 30.058; 4.8885
90; 95.523; 90		1116.9Garai, Mousumi; Biradha, Kumar
Exploration and exploitation of homologous series of bis(acrylamido)alkanes containing pyridyl and phenyl groups: β-sheet versus two-dimensional layers in solid-state photochemical [2 + 2] reactions.
IUCrJ, 2015, 2, 523-533
1556777 CIFC16 H14 N4 O2P 1 21/c 110.403; 7.16; 19.202
90; 101.156; 90		1403.2Garai, Mousumi; Biradha, Kumar
Exploration and exploitation of homologous series of bis(acrylamido)alkanes containing pyridyl and phenyl groups: β-sheet versus two-dimensional layers in solid-state photochemical [2 + 2] reactions.
IUCrJ, 2015, 2, 523-533
1556778 CIFC18 H18 N4 O2C 1 2/c 134.566; 9.3338; 10.4191
90; 100.401; 90		3306.3Garai, Mousumi; Biradha, Kumar
Exploration and exploitation of homologous series of bis(acrylamido)alkanes containing pyridyl and phenyl groups: β-sheet versus two-dimensional layers in solid-state photochemical [2 + 2] reactions.
IUCrJ, 2015, 2, 523-533
1556779 CIFC18 H18 N4 O2P 1 21/n 14.7967; 11.547; 14.726
90; 96.451; 90		810.5Garai, Mousumi; Biradha, Kumar
Exploration and exploitation of homologous series of bis(acrylamido)alkanes containing pyridyl and phenyl groups: β-sheet versus two-dimensional layers in solid-state photochemical [2 + 2] reactions.
IUCrJ, 2015, 2, 523-533
1556780 CIFC20 H26 N4 O4P 1 21/c 112.78; 4.681; 16.21
90; 93.42; 90		968Garai, Mousumi; Biradha, Kumar
Exploration and exploitation of homologous series of bis(acrylamido)alkanes containing pyridyl and phenyl groups: β-sheet versus two-dimensional layers in solid-state photochemical [2 + 2] reactions.
IUCrJ, 2015, 2, 523-533
1556781 CIFC22 H30 N4 O4P 1 21/n 17.372; 4.9035; 31.586
90; 90.197; 90		1141.78Garai, Mousumi; Biradha, Kumar
Exploration and exploitation of homologous series of bis(acrylamido)alkanes containing pyridyl and phenyl groups: β-sheet versus two-dimensional layers in solid-state photochemical [2 + 2] reactions.
IUCrJ, 2015, 2, 523-533
1556782 CIFC14 H12 F4 I N3 OP 1 21/c 113.9735; 17.2451; 13.6166
90; 105.489; 90		3162.1Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556783 CIFC16 H18 Br N3 OP -17.809; 9.6156; 11.452
101.314; 94.225; 113.541		761.9Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556784 CIFC23 H22 Br2 N2 O4P -19.3718; 9.6497; 14.1666
98.672; 105.769; 110.884		1107.38Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556785 CIFC14 H15 Br N2 O2P 1 21/c 113.5603; 8.17; 12.2863
90; 92.157; 90		1360.2Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556786 CIFC31 H19 F4 I N2 O4C 1 2 125.216; 6.0746; 19.0419
90; 107.453; 90		2782.5Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556787 CIFC17 H13 I N2 O2P -16.2888; 7.4027; 8.1348
84.773; 82.604; 83.781		372.2Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556788 CIFC19 H17 I N2 O2P 1 n 110.7653; 7.3634; 11.4066
90; 109.025; 90		854.8Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556789 CIFC14 H13 Br F4 N2 OP -14.4175; 12.5878; 13.4274
80.827; 82.672; 87.809		730.96Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556790 CIFC19 H13 Br F4 N2 O2P -14.8727; 10.7621; 16.595
87.808; 85.332; 83.646		861.66Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556791 CIFC15 H14 F4 I N3 OP 1 21/c 14.1573; 14.8817; 26.2084
90; 91.345; 90		1621.01Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556792 CIFC19 H14 F4 I N3 OP 1 21/n 16.2801; 11.2226; 26.846
90; 95.661; 90		1882.9Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556793 CIFC15 H13 F4 I N2 O2P n a 2117.5616; 14.8078; 6.1199
90; 90; 90		1591.47Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556794 CIFC17 H9 F4 I N2 O2P 1 21/c 112.1699; 11.1933; 12.2448
90; 104.562; 90		1614.42Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556795 CIFC26 H22 Br2 N2 O4P -17.1108; 7.4624; 11.2299
93.434; 94.022; 103.373		576.53Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556796 CIFC24 H18 Br2 N2 O4P 1 21/c 111.0467; 28.9658; 10.7956
90; 110.603; 90		3233.4Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556797 CIFC26 H14 Br2 F8 N4 O2P -15.837; 12.8464; 18.1146
103.537; 96.861; 93.06		1306.46Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556798 CIFC22 H10 Br2 F8 N2 O2P 1 21/c 113.6342; 5.8333; 13.3118
90; 90.944; 90		1058.58Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556799 CIFC24 H14 Br2 F8 N2 O2C 1 2/c 125.9125; 4.6925; 20.0909
90; 103.464; 90		2375.8Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556800 CIFC10 H5 F4 I N2 O2P 1 21/n 111.701; 4.6121; 21.594
90; 103.591; 90		1132.7Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556801 CIFC12 H5 F4 I N2 OP 1 21/n 112.7258; 4.9322; 20.729
90; 106.074; 90		1250.2Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556802 CIFC11 H5 F4 I N2 O3P -14.2485; 11.6204; 13.8288
110.206; 95.97; 98.531		624.68Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556803 CIFC13 H5 F4 I N2 O2P 1 21/c 17.4234; 35.8851; 10.0949
90; 101.028; 90		2639.5Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556804 CIFC13 H9 Br N2 O2P -17.363; 7.48; 12.446
80.617; 84.893; 62.018		597.17Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556805 CIFC12 H5 Br F4 N2 OP 1 21/n 112.2763; 5.0037; 20.666
90; 106.425; 90		1217.6Aakeröy, Christer B; Spartz, Christine L.; Dembowski, Sean; Dwyre, Savannah; Desper, John
A systematic structural study of halogen bonding versus hydrogen bonding within competitive supramolecular systems.
IUCrJ, 2015, 2, 498-510
1556806 CIFC42 H28C m c e26.7965; 7.1599; 14.1519
90; 90; 90		2715.19Hathwar, Venkatesha R.; Sist, Mattia; Jørgensen, Mads R V; Mamakhel, Aref H.; Wang, Xiaoping; Hoffmann, Christina M.; Sugimoto, Kunihisa; Overgaard, Jacob; Iversen, Bo Brummerstedt
Quantitative analysis of intermolecular interactions in orthorhombic rubrene.
IUCrJ, 2015, 2, 563-574
1556807 CIFC42 H28C m c e26.8106; 7.1602; 14.2029
90; 90; 90		2726.52Hathwar, Venkatesha R.; Sist, Mattia; Jørgensen, Mads R V; Mamakhel, Aref H.; Wang, Xiaoping; Hoffmann, Christina M.; Sugimoto, Kunihisa; Overgaard, Jacob; Iversen, Bo Brummerstedt
Quantitative analysis of intermolecular interactions in orthorhombic rubrene.
IUCrJ, 2015, 2, 563-574
1556808 CIFC12 H14 Cl2 N2P -16.5705; 7.6756; 12.6098
85.165; 76.785; 73.868		594.58Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556809 CIFC12 H14 Cl2 N2P -16.5705; 7.6756; 12.6098
85.165; 76.785; 73.868		594.58Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556810 CIFC6 H7 Cl NP -16.5742; 7.6702; 12.636
85.26; 76.735; 73.823		595.5Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556811 CIFC12 H14 Cl2 N2P -16.57; 7.676; 12.61
85.17; 76.79; 73.87		594.593Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556812 CIFC12 H14 Cl2 N2P -16.57; 7.676; 12.61
85.17; 76.79; 73.87		594.593Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556813 CIFC20 H14 Cl4P 1 21 113.551; 8.0183; 14.8834
90; 94.021; 90		1613.19Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556814 CIFC20 H14 Cl4P 1 21 113.551; 8.0183; 14.8834
90; 94.021; 90		1613.19Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556815 CIFC22 H16 Cl2P 1 21 113.589; 8.0415; 14.943
90; 93.998; 90		1628.9Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556816 CIFC14 H24 Cl2 N2 O2P 1 21/n 110.085; 9.811; 17.915
90; 101.639; 90		1736.1Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556817 CIFC14 H24 Cl2 N2 O2P 1 21/n 110.085; 9.811; 17.915
90; 101.639; 90		1736.1Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556818 CIFC14 H24 Cl2 N2 O2P 1 21/n 110.085; 9.811; 17.915
90; 101.639; 90		1736.1Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556819 CIFC14 H24 Cl2 N2 O2P 1 21/n 110.085; 9.811; 17.915
90; 101.64; 90		1736.13Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556820 CIFC14 H24 Cl2 N2 O2P 1 21/n 110.085; 9.811; 17.915
90; 101.64; 90		1736.13Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556821 CIFC20 H30 FeC m c e15.0905; 11.4741; 9.9484
90; 90; 90		1722.6Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556822 CIFC20 H30 FeC m c e15.0905; 11.4741; 9.9484
90; 90; 90		1722.6Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556823 CIFC20 H30 FeC m c e15.119; 11.492; 9.967
90; 90; 90		1731.7Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556824 CIFC20 H14P 21 21 218.0798; 8.1645; 20.3778
90; 90; 90		1344.27Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556825 CIFC20 H14P 21 21 218.0798; 8.1645; 20.3778
90; 90; 90		1344.27Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556826 CIFC20 H14P 21 21 218.1019; 8.1922; 20.442
90; 90; 90		1356.8Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556827 CIFC20 H14P 21 21 218.08; 8.165; 20.378
90; 90; 90		1344.4Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556828 CIFC20 H14P 21 21 218.08; 8.165; 20.378
90; 90; 90		1344.4Sanjuan-Szklarz, W Fabiola; Hoser, Anna A.; Gutmann, Matthias; Madsen, Anders Østergaard; Woźniak, Krzysztof
Yes, one can obtain better quality structures from routine X-ray data collection.
IUCrJ, 2016, 3, 61-70
1556829 CIFC30 H29 Cl2 Cu2 I2 N O2 S2P -111.7925; 11.9665; 13.4375
93.29; 95.681; 118.683		1643.38Park, In-Hyeok; Kang, Yunji; Lee, Eunji; Ju, Huiyeong; Kim, Seulgi; Seo, Sujin; Jung, Jong Hwa; Lee, Shim Sung
Snapshot and crystallographic observations of kinetic and thermodynamic products for NO<sub>2</sub>S<sub>2</sub> macrocyclic complexes.
IUCrJ, 2018, 5, 45-53
1556830 CIFC29 H27 Cd2 I4 N O2 S2C 1 2/c 123.3017; 13.4569; 26.9935
90; 102.963; 90		8248.6Park, In-Hyeok; Kang, Yunji; Lee, Eunji; Ju, Huiyeong; Kim, Seulgi; Seo, Sujin; Jung, Jong Hwa; Lee, Shim Sung
Snapshot and crystallographic observations of kinetic and thermodynamic products for NO<sub>2</sub>S<sub>2</sub> macrocyclic complexes.
IUCrJ, 2018, 5, 45-53
1556831 CIFC58 H54 Cd4 I8 N2 O4 S4P -111.66; 12.147; 12.585
75.142; 87.056; 86.996		1719.2Park, In-Hyeok; Kang, Yunji; Lee, Eunji; Ju, Huiyeong; Kim, Seulgi; Seo, Sujin; Jung, Jong Hwa; Lee, Shim Sung
Snapshot and crystallographic observations of kinetic and thermodynamic products for NO<sub>2</sub>S<sub>2</sub> macrocyclic complexes.
IUCrJ, 2018, 5, 45-53
1556832 CIFC116 H106 Cd8 I16 N4 O8 S8P -111.3166; 13.4404; 24.586
86.655; 89.396; 78.371		3656.5Park, In-Hyeok; Kang, Yunji; Lee, Eunji; Ju, Huiyeong; Kim, Seulgi; Seo, Sujin; Jung, Jong Hwa; Lee, Shim Sung
Snapshot and crystallographic observations of kinetic and thermodynamic products for NO<sub>2</sub>S<sub>2</sub> macrocyclic complexes.
IUCrJ, 2018, 5, 45-53
1556833 CIFC29 H27 Cd Cu I3 N O2 S2P -18.9645; 14.4098; 14.8826
65.853; 73.386; 81.546		1680.04Park, In-Hyeok; Kang, Yunji; Lee, Eunji; Ju, Huiyeong; Kim, Seulgi; Seo, Sujin; Jung, Jong Hwa; Lee, Shim Sung
Snapshot and crystallographic observations of kinetic and thermodynamic products for NO<sub>2</sub>S<sub>2</sub> macrocyclic complexes.
IUCrJ, 2018, 5, 45-53
1556834 CIFC0.26 Na0.01 O2 SiF d -3 m :219.442; 19.442; 19.442
90; 90; 90		7348.9Scheidl, K. S.; Effenberger, H. S.; Yagi, T.; Momma, K.; Miletich, Ronald
The hydrocarbon-bearing clathrasil chibaite and its host-guest structure at low temperature.
IUCrJ, 2018, 5, 595-607
1556835 CIFC0.26 Na0.01 O2 SiF d -3 m :219.4214; 19.4214; 19.4214
90; 90; 90		7325.6Scheidl, K. S.; Effenberger, H. S.; Yagi, T.; Momma, K.; Miletich, Ronald
The hydrocarbon-bearing clathrasil chibaite and its host-guest structure at low temperature.
IUCrJ, 2018, 5, 595-607
1556836 CIFC0.58 Na0.02 O4.53 Si2.27A 1 2/n 123.7844; 13.732; 23.784
90; 109.47; 90		7324Scheidl, K. S.; Effenberger, H. S.; Yagi, T.; Momma, K.; Miletich, Ronald
The hydrocarbon-bearing clathrasil chibaite and its host-guest structure at low temperature.
IUCrJ, 2018, 5, 595-607
1556837 CIFC0.26 Na0.01 O2 SiF d -3 m :219.4199; 19.4199; 19.4199
90; 90; 90		7323.9Scheidl, K. S.; Effenberger, H. S.; Yagi, T.; Momma, K.; Miletich, Ronald
The hydrocarbon-bearing clathrasil chibaite and its host-guest structure at low temperature.
IUCrJ, 2018, 5, 595-607
1556838 CIFC0.58 Na0.02 O4.53 Si2.27A 1 2/n 123.834; 13.76; 23.833
90; 109.47; 90		7369Scheidl, K. S.; Effenberger, H. S.; Yagi, T.; Momma, K.; Miletich, Ronald
The hydrocarbon-bearing clathrasil chibaite and its host-guest structure at low temperature.
IUCrJ, 2018, 5, 595-607
1556839 CIFC0.26 Na0.01 O2 SiF d -3 m :219.3944; 19.3944; 19.3944
90; 90; 90		7295.1Scheidl, K. S.; Effenberger, H. S.; Yagi, T.; Momma, K.; Miletich, Ronald
The hydrocarbon-bearing clathrasil chibaite and its host-guest structure at low temperature.
IUCrJ, 2018, 5, 595-607
1556840 CIFC0.58 Na0.02 O4.53 Si2.27A 1 2/n 123.834; 13.76; 23.833
90; 109.47; 90		7369Scheidl, K. S.; Effenberger, H. S.; Yagi, T.; Momma, K.; Miletich, Ronald
The hydrocarbon-bearing clathrasil chibaite and its host-guest structure at low temperature.
IUCrJ, 2018, 5, 595-607
1556841 CIFC0.26 Na0.01 O2 SiF d -3 m :219.3944; 19.3944; 19.3944
90; 90; 90		7295.1Scheidl, K. S.; Effenberger, H. S.; Yagi, T.; Momma, K.; Miletich, Ronald
The hydrocarbon-bearing clathrasil chibaite and its host-guest structure at low temperature.
IUCrJ, 2018, 5, 595-607
1556842 CIFC0.58 Na0.02 O4.53 Si2.27A 1 2/n 123.7054; 13.6861; 23.7051
90; 109.47; 90		7251Scheidl, K. S.; Effenberger, H. S.; Yagi, T.; Momma, K.; Miletich, Ronald
The hydrocarbon-bearing clathrasil chibaite and its host-guest structure at low temperature.
IUCrJ, 2018, 5, 595-607
1556843 CIFC0.26 Na0.01 O2 SiF d -3 m :219.3944; 19.3944; 19.3944
90; 90; 90		7295.1Scheidl, K. S.; Effenberger, H. S.; Yagi, T.; Momma, K.; Miletich, Ronald
The hydrocarbon-bearing clathrasil chibaite and its host-guest structure at low temperature.
IUCrJ, 2018, 5, 595-607
1556888 CIFC18 H14 F4 N2 O4 SP 1 21/c 114.8945; 12.1188; 10.2846
90; 105.825; 90		1786.05Korlyukov, Alexander A.; Malinska, Maura; Vologzhanina, Anna V.; Goizman, Mikhail S.; Trzybinski, Damian; Wozniak, Krzysztof
Charge density view on bicalutamide molecular interactions in the monoclinic polymorph and androgen receptor binding pocket
IUCrJ, 2020, 7, 71-82
1556889 CIFC54 H42 Cu2 N2 O8C 1 2/c 124.633; 12.093; 15.509
90; 108.48; 90		4382Yadava, Khushboo; Gallo, Gianpiero; Bette, Sebastian; Mulijanto, Caroline Evania; Karothu, Durga Prasad; Park, In-Hyeok; Medishetty, Raghavender; Naumov, Panče; Dinnebier, Robert E.; Vittal, Jagadese J.
Extraordinary anisotropic thermal expansion in photosalient crystals
IUCrJ, 2020, 7, 83-89
1556890 CIFC54 H40 Cu2 F2 N2 O8C 1 2/c 124.9699; 12.1074; 15.4675
90; 108.809; 90		4426.4Yadava, Khushboo; Gallo, Gianpiero; Bette, Sebastian; Mulijanto, Caroline Evania; Karothu, Durga Prasad; Park, In-Hyeok; Medishetty, Raghavender; Naumov, Panče; Dinnebier, Robert E.; Vittal, Jagadese J.
Extraordinary anisotropic thermal expansion in photosalient crystals
IUCrJ, 2020, 7, 83-89
1556891 CIFC54 H40 Cu2 F2 N2 O8C 1 2/c 125.1802; 12.0004; 15.5976
90; 108.802; 90		4461.7Yadava, Khushboo; Gallo, Gianpiero; Bette, Sebastian; Mulijanto, Caroline Evania; Karothu, Durga Prasad; Park, In-Hyeok; Medishetty, Raghavender; Naumov, Panče; Dinnebier, Robert E.; Vittal, Jagadese J.
Extraordinary anisotropic thermal expansion in photosalient crystals
IUCrJ, 2020, 7, 83-89
1556892 CIFC54 H40 Cu2 F2 N2 O8P -110.3725; 11.0398; 12.0294
71.354; 66.229; 65.356		1126.6Yadava, Khushboo; Gallo, Gianpiero; Bette, Sebastian; Mulijanto, Caroline Evania; Karothu, Durga Prasad; Park, In-Hyeok; Medishetty, Raghavender; Naumov, Panče; Dinnebier, Robert E.; Vittal, Jagadese J.
Extraordinary anisotropic thermal expansion in photosalient crystals
IUCrJ, 2020, 7, 83-89
1556893 CIFC5 H5 NP 21 21 215.392; 6.806; 11.261
90; 90; 90		413.3Giordano, Nico; Beavers, Christine M.; Campbell, Branton J.; Eigner, Václav; Gregoryanz, Eugene; Marshall, Willliam G.; Peña-Álvarez, Miriam; Teat, Simon J.; Vennari, Cara E.; Parsons, Simon
High-pressure polymorphism in pyridine
IUCrJ, 2020, 7, 58-70
1556894 CIFC5 H5 NP 41 21 25.4053; 5.4053; 13.4853
90; 90; 90		394Giordano, Nico; Beavers, Christine M.; Campbell, Branton J.; Eigner, Václav; Gregoryanz, Eugene; Marshall, Willliam G.; Peña-Álvarez, Miriam; Teat, Simon J.; Vennari, Cara E.; Parsons, Simon
High-pressure polymorphism in pyridine
IUCrJ, 2020, 7, 58-70
1557387 CIFC28 H20 N2 O6 ZnP 1 2/n 114.2399; 7.5126; 14.7479
90; 101.619; 90		1545.38Park, In-Hyeok; Dey, Atanu; Sasaki, Kenta; Ohba, Masaaki; Lee, Shim Sung; Vittal, Jagadese J.
Disappeared supramolecular isomer reappears with perylene guest
IUCrJ, 2020, 7, 324-330
1557388 CIFC56 H40 N4 O12 Zn2P 1 2/c 120.1826; 18.7307; 17.1854
90; 91.583; 90		6494.2Park, In-Hyeok; Dey, Atanu; Sasaki, Kenta; Ohba, Masaaki; Lee, Shim Sung; Vittal, Jagadese J.
Disappeared supramolecular isomer reappears with perylene guest
IUCrJ, 2020, 7, 324-330
1557389 CIFC38 H26 N2 O6 ZnC 1 2/c 128.18; 14.88; 18.158
90; 124.421; 90		6280.8Park, In-Hyeok; Dey, Atanu; Sasaki, Kenta; Ohba, Masaaki; Lee, Shim Sung; Vittal, Jagadese J.
Disappeared supramolecular isomer reappears with perylene guest
IUCrJ, 2020, 7, 324-330
1557481 CIF
Paper		C21 H22 Cl N3 O2P -17.9299; 9.3219; 13.5862
87.768; 76.928; 76.025		949.2Ranjan, Subham; Devarapalli, Ramesh; Kundu, Sudeshna; Saha, Subhankar; Deolka, Shubham; Vangala, Venu R.; Reddy, C. Malla
Isomorphism: `molecular similarity to crystal structure similarity' in multicomponent forms of analgesic drugs tolfenamic and mefenamic acid
IUCrJ, 2020, 7, 173-183
1557482 CIFC21 H24 Cl N3 O3P -17.7631; 8.025; 16.2297
101.784; 98.374; 90.687		978.32Ranjan, Subham; Devarapalli, Ramesh; Kundu, Sudeshna; Saha, Subhankar; Deolka, Shubham; Vangala, Venu R.; Reddy, C. Malla
Isomorphism: `molecular similarity to crystal structure similarity' in multicomponent forms of analgesic drugs tolfenamic and mefenamic acid
IUCrJ, 2020, 7, 173-183
1557483 CIFC35 H34 Cl2 N4 O4P -110.8864; 12.2705; 13.7811
106.966; 105.782; 103.324		1595.5Ranjan, Subham; Devarapalli, Ramesh; Kundu, Sudeshna; Saha, Subhankar; Deolka, Shubham; Vangala, Venu R.; Reddy, C. Malla
Isomorphism: `molecular similarity to crystal structure similarity' in multicomponent forms of analgesic drugs tolfenamic and mefenamic acid
IUCrJ, 2020, 7, 173-183
1557484 CIFC14 H12 Cl N O2P -16.7049; 7.2778; 14.163
77.167; 79.908; 65.487		610.42Ranjan, Subham; Devarapalli, Ramesh; Kundu, Sudeshna; Saha, Subhankar; Deolka, Shubham; Vangala, Venu R.; Reddy, C. Malla
Isomorphism: `molecular similarity to crystal structure similarity' in multicomponent forms of analgesic drugs tolfenamic and mefenamic acid
IUCrJ, 2020, 7, 173-183
1557485 CIFC17 H19 Cl N2 O3P -110.4803; 11.8423; 13.3309
94.335; 95.883; 102.871		1596.16Ranjan, Subham; Devarapalli, Ramesh; Kundu, Sudeshna; Saha, Subhankar; Deolka, Shubham; Vangala, Venu R.; Reddy, C. Malla
Isomorphism: `molecular similarity to crystal structure similarity' in multicomponent forms of analgesic drugs tolfenamic and mefenamic acid
IUCrJ, 2020, 7, 173-183
1557486 CIFC22 H25 N3 O2P -17.7575; 9.4727; 13.3076
87.515; 78.596; 74.174		922.2Ranjan, Subham; Devarapalli, Ramesh; Kundu, Sudeshna; Saha, Subhankar; Deolka, Shubham; Vangala, Venu R.; Reddy, C. Malla
Isomorphism: `molecular similarity to crystal structure similarity' in multicomponent forms of analgesic drugs tolfenamic and mefenamic acid
IUCrJ, 2020, 7, 173-183
1557487 CIFC22 H27 N3 O3P -17.7248; 8.0592; 16.2531
101.711; 98.743; 90.16		978.68Ranjan, Subham; Devarapalli, Ramesh; Kundu, Sudeshna; Saha, Subhankar; Deolka, Shubham; Vangala, Venu R.; Reddy, C. Malla
Isomorphism: `molecular similarity to crystal structure similarity' in multicomponent forms of analgesic drugs tolfenamic and mefenamic acid
IUCrJ, 2020, 7, 173-183
1557488 CIFC37 H40 N4 O4P -110.7678; 11.9673; 13.786
106.152; 105.842; 103.49		1546.9Ranjan, Subham; Devarapalli, Ramesh; Kundu, Sudeshna; Saha, Subhankar; Deolka, Shubham; Vangala, Venu R.; Reddy, C. Malla
Isomorphism: `molecular similarity to crystal structure similarity' in multicomponent forms of analgesic drugs tolfenamic and mefenamic acid
IUCrJ, 2020, 7, 173-183
1557660 CIF
Paper		C13 H24 O4P 1 21/n 15.5195; 9.4058; 26.283
90; 90.84; 90		1364.3Shi, Peng; Xu, Shijie; Ma, Yiming; Tang, Weiwei; Zhang, Feng; Wang, Jingkang; Gong, Junbo
Probing the structural pathway of conformational polymorph nucleation by comparing a series of α,ω-alkanedicarboxylic acids
IUCrJ, 2020, 7
1557661 CIFC15 H28 O4P 1 21/c 15.4671; 9.2806; 29.827
90; 94.449; 90		1508.8Shi, Peng; Xu, Shijie; Ma, Yiming; Tang, Weiwei; Zhang, Feng; Wang, Jingkang; Gong, Junbo
Probing the structural pathway of conformational polymorph nucleation by comparing a series of α,ω-alkanedicarboxylic acids
IUCrJ, 2020, 7
1557713 CIFD2.15 Mg2.28 O6 Si1.32R -3 m :H2.9647; 2.9647; 13.8892
90; 90; 120		105.72Purevjav, Narangoo; Okuchi, Takuo; Hoffmann, Christina
Strong hydrogen bonding in a dense hydrous magnesium silicate discovered by neutron Laue diffraction
IUCrJ, 2020, 7
1559218 CIFAl27 K24.67 Na2.33 O108 Si27P 327.0597; 27.0597; 8.5587
90; 90; 120		5427.3Mugnaioli, Enrico; Bonaccorsi, Elena; Lanza, Arianna E.; Elkaim, Erik; Diez-Gómez, Virginia; Sobrados, Isabel; Gemmi, Mauro; Gregorkiewitz, Miguel
The structure of kaliophilite KAlSiO~4~, a long-lasting crystallographic problem
IUCrJ, 2020, 7
1559398 CIFC21 H28 O5P 21 21 217.7819; 10.0468; 23.6401
90; 90; 90		1848.26Verma, Vivek; Bordignon, Simone; Chierotti, Michele R.; Lestari, Monica; Lyons, Kieran; Padrela, Luis; Ryan, Kevin M.; Lusi, Matteo
Cortisone and cortisol break hydrogen-bonding rules to make a drug‒prodrug solid solution
IUCrJ, 2020, 7
1559399 CIFC21 H28.74 O5P 21 21 217.7442; 10.0968; 23.675
90; 90; 90		1851.2Verma, Vivek; Bordignon, Simone; Chierotti, Michele R.; Lestari, Monica; Lyons, Kieran; Padrela, Luis; Ryan, Kevin M.; Lusi, Matteo
Cortisone and cortisol break hydrogen-bonding rules to make a drug‒prodrug solid solution
IUCrJ, 2020, 7
1559400 CIFC21 H29.27 O5P 21 21 217.7308; 10.1237; 23.694
90; 90; 90		1854.4Verma, Vivek; Bordignon, Simone; Chierotti, Michele R.; Lestari, Monica; Lyons, Kieran; Padrela, Luis; Ryan, Kevin M.; Lusi, Matteo
Cortisone and cortisol break hydrogen-bonding rules to make a drug‒prodrug solid solution
IUCrJ, 2020, 7
1559401 CIFC21 H29.48 O5P 21 21 217.6953; 10.1268; 23.619
90; 90; 90		1840.6Verma, Vivek; Bordignon, Simone; Chierotti, Michele R.; Lestari, Monica; Lyons, Kieran; Padrela, Luis; Ryan, Kevin M.; Lusi, Matteo
Cortisone and cortisol break hydrogen-bonding rules to make a drug‒prodrug solid solution
IUCrJ, 2020, 7
1559402 CIFC21 H30 O5P 21 21 2110.1439; 12.4255; 30.496
90; 90; 90		3843.8Verma, Vivek; Bordignon, Simone; Chierotti, Michele R.; Lestari, Monica; Lyons, Kieran; Padrela, Luis; Ryan, Kevin M.; Lusi, Matteo
Cortisone and cortisol break hydrogen-bonding rules to make a drug‒prodrug solid solution
IUCrJ, 2020, 7
1559421 CIFC20 H15 N3 Ni O3I 41/a :214.7759; 14.7759; 29.8577
90; 90; 90		6518.7Kutniewska, Sylwia E.; Krówczyński, Adam; Kamiński, Radosław; Jarzembska, Katarzyna N.; Pillet, Sébastien; Wenger, Emmanuel; Schaniel, Dominik
Photocrystallographic and spectroscopic studies of a model (N,N,O)-donor square-planar nickel(II) nitro complex: in search of high-conversion and stable photoswitchable materials
IUCrJ, 2020, 7
1559422 CIFC20 H15 N3 Ni O3I 41/a :214.7908; 14.7908; 29.8489
90; 90; 90		6530Kutniewska, Sylwia E.; Krówczyński, Adam; Kamiński, Radosław; Jarzembska, Katarzyna N.; Pillet, Sébastien; Wenger, Emmanuel; Schaniel, Dominik
Photocrystallographic and spectroscopic studies of a model (N,N,O)-donor square-planar nickel(II) nitro complex: in search of high-conversion and stable photoswitchable materials
IUCrJ, 2020, 7
1559423 CIFC20 H15 N3 Ni O3I 41/a :214.8076; 14.8076; 29.8449
90; 90; 90		6543.9Kutniewska, Sylwia E.; Krówczyński, Adam; Kamiński, Radosław; Jarzembska, Katarzyna N.; Pillet, Sébastien; Wenger, Emmanuel; Schaniel, Dominik
Photocrystallographic and spectroscopic studies of a model (N,N,O)-donor square-planar nickel(II) nitro complex: in search of high-conversion and stable photoswitchable materials
IUCrJ, 2020, 7
1559424 CIFC20 H15 N3 Ni O3I 41/a :214.8239; 14.8239; 29.8395
90; 90; 90		6557.2Kutniewska, Sylwia E.; Krówczyński, Adam; Kamiński, Radosław; Jarzembska, Katarzyna N.; Pillet, Sébastien; Wenger, Emmanuel; Schaniel, Dominik
Photocrystallographic and spectroscopic studies of a model (N,N,O)-donor square-planar nickel(II) nitro complex: in search of high-conversion and stable photoswitchable materials
IUCrJ, 2020, 7
1559425 CIFC20 H15 N3 Ni O3I 41/a :214.8206; 14.8206; 29.8617
90; 90; 90		6559.1Kutniewska, Sylwia E.; Krówczyński, Adam; Kamiński, Radosław; Jarzembska, Katarzyna N.; Pillet, Sébastien; Wenger, Emmanuel; Schaniel, Dominik
Photocrystallographic and spectroscopic studies of a model (N,N,O)-donor square-planar nickel(II) nitro complex: in search of high-conversion and stable photoswitchable materials
IUCrJ, 2020, 7
1559426 CIFC20 H15 N3 Ni O3I 41/a :214.8394; 14.8394; 29.832
90; 90; 90		6569.2Kutniewska, Sylwia E.; Krówczyński, Adam; Kamiński, Radosław; Jarzembska, Katarzyna N.; Pillet, Sébastien; Wenger, Emmanuel; Schaniel, Dominik
Photocrystallographic and spectroscopic studies of a model (N,N,O)-donor square-planar nickel(II) nitro complex: in search of high-conversion and stable photoswitchable materials
IUCrJ, 2020, 7
1559427 CIFC20 H15 N3 Ni O3I 41/a :214.8477; 14.8477; 29.8554
90; 90; 90		6581.7Kutniewska, Sylwia E.; Krówczyński, Adam; Kamiński, Radosław; Jarzembska, Katarzyna N.; Pillet, Sébastien; Wenger, Emmanuel; Schaniel, Dominik
Photocrystallographic and spectroscopic studies of a model (N,N,O)-donor square-planar nickel(II) nitro complex: in search of high-conversion and stable photoswitchable materials
IUCrJ, 2020, 7
1559428 CIFC20 H15 N3 Ni O3I 41/a :214.8584; 14.8584; 29.828
90; 90; 90		6585.2Kutniewska, Sylwia E.; Krówczyński, Adam; Kamiński, Radosław; Jarzembska, Katarzyna N.; Pillet, Sébastien; Wenger, Emmanuel; Schaniel, Dominik
Photocrystallographic and spectroscopic studies of a model (N,N,O)-donor square-planar nickel(II) nitro complex: in search of high-conversion and stable photoswitchable materials
IUCrJ, 2020, 7
1559429 CIFC20 H15 N3 Ni O3I 41/a :214.8663; 14.8663; 29.841
90; 90; 90		6595.1Kutniewska, Sylwia E.; Krówczyński, Adam; Kamiński, Radosław; Jarzembska, Katarzyna N.; Pillet, Sébastien; Wenger, Emmanuel; Schaniel, Dominik
Photocrystallographic and spectroscopic studies of a model (N,N,O)-donor square-planar nickel(II) nitro complex: in search of high-conversion and stable photoswitchable materials
IUCrJ, 2020, 7
1559430 CIFC20 H15 N3 Ni O3I 41/a :214.8778; 14.8778; 29.8291
90; 90; 90		6602.6Kutniewska, Sylwia E.; Krówczyński, Adam; Kamiński, Radosław; Jarzembska, Katarzyna N.; Pillet, Sébastien; Wenger, Emmanuel; Schaniel, Dominik
Photocrystallographic and spectroscopic studies of a model (N,N,O)-donor square-planar nickel(II) nitro complex: in search of high-conversion and stable photoswitchable materials
IUCrJ, 2020, 7
1559431 CIFC20 H15 N3 Ni O3I 41/a :214.893; 14.893; 29.829
90; 90; 90		6616.1Kutniewska, Sylwia E.; Krówczyński, Adam; Kamiński, Radosław; Jarzembska, Katarzyna N.; Pillet, Sébastien; Wenger, Emmanuel; Schaniel, Dominik
Photocrystallographic and spectroscopic studies of a model (N,N,O)-donor square-planar nickel(II) nitro complex: in search of high-conversion and stable photoswitchable materials
IUCrJ, 2020, 7
1559432 CIFC20 H15 N3 Ni O3I 41/a :214.8976; 14.8976; 29.8244
90; 90; 90		6619.2Kutniewska, Sylwia E.; Krówczyński, Adam; Kamiński, Radosław; Jarzembska, Katarzyna N.; Pillet, Sébastien; Wenger, Emmanuel; Schaniel, Dominik
Photocrystallographic and spectroscopic studies of a model (N,N,O)-donor square-planar nickel(II) nitro complex: in search of high-conversion and stable photoswitchable materials
IUCrJ, 2020, 7
1559801 CIFAl0.17 Ca0.18 F0.08 Fe5.4 H1.92 Mg1.25 O23.92 Si8C 1 2/m 19.54396; 18.2455; 5.3266
90; 101.883; 90		907.67Giacobbe, Carlotta; Di Giuseppe, Dario; Zoboli, Alessandro; Lassinantti Gualtieri, Magdalena; Bonasoni, Paola; Moliterni, Anna; Corriero, Nicola; Altomare, Angela; Wright, Jonathan; Gualtieri, Alessandro F.
Crystal structure determination of a lifelong biopersistent asbestos fibre using single-crystal synchrotron X-ray micro-diffraction
IUCrJ, 2021, 8, 76-86
1559802 CIFAl0.22 Ca0.17 Fe5.3 H2 Mg1.31 O24 Si8C 1 2/m 19.5343; 18.221; 5.3202
90; 101.846; 90		904.57Giacobbe, Carlotta; Di Giuseppe, Dario; Zoboli, Alessandro; Lassinantti Gualtieri, Magdalena; Bonasoni, Paola; Moliterni, Anna; Corriero, Nicola; Altomare, Angela; Wright, Jonathan; Gualtieri, Alessandro F.
Crystal structure determination of a lifelong biopersistent asbestos fibre using single-crystal synchrotron X-ray micro-diffraction
IUCrJ, 2021, 8, 76-86
1559807 CIFAs3 Fe H16 O17P 1 21/n 115.4357; 20.01; 4.7994
90; 91.728; 90		1481.71Steciuk, Gwladys; Majzlan, Juraj; Plášil, Jakub
Hydrogen disorder in kaatialaite Fe[AsO~2~(OH)~2~]5H~2~O from Jáchymov, Czech Republic: determination from low-temperature 3D electron diffraction
IUCrJ, 2021, 8, 116-123
1559957 CIFC7 H4 N Na O4.875 SC 1 2/n 118.7488; 7.1526; 29.1812
90; 93.7725; 90		3904.8Rekis, Toms; Schaller, Achim M.; Kotla, Surya Rohith; Schönleber, Andreas; Noohinejad, Leila; Tolkiehn, Martin; Paulmann, Carsten; van Smaalen, Sander
Single-crystal-to-single-crystal phase transitions of commensurately modulated sodium saccharinate 1.875-hydrate
IUCrJ, 2021, 8, 139-147
1559958 CIFC7 H4 N Na O4.875 SC 1 2/n 118.747; 7.1519; 29.1807
90; 93.7723; 90		3903.97Rekis, Toms; Schaller, Achim M.; Kotla, Surya Rohith; Schönleber, Andreas; Noohinejad, Leila; Tolkiehn, Martin; Paulmann, Carsten; van Smaalen, Sander
Single-crystal-to-single-crystal phase transitions of commensurately modulated sodium saccharinate 1.875-hydrate
IUCrJ, 2021, 8, 139-147
1559959 CIFC7 H4 N Na O4.875 SC 1 2/n 118.6705; 7.123; 29.1292
90; 93.6645; 90		3865.97Rekis, Toms; Schaller, Achim M.; Kotla, Surya Rohith; Schönleber, Andreas; Noohinejad, Leila; Tolkiehn, Martin; Paulmann, Carsten; van Smaalen, Sander
Single-crystal-to-single-crystal phase transitions of commensurately modulated sodium saccharinate 1.875-hydrate
IUCrJ, 2021, 8, 139-147
1559960 CIFC7 H4 N Na O4.875 SC 1 2/n 118.5979; 7.0922; 29.0731
90; 93.5819; 90		3827.25Rekis, Toms; Schaller, Achim M.; Kotla, Surya Rohith; Schönleber, Andreas; Noohinejad, Leila; Tolkiehn, Martin; Paulmann, Carsten; van Smaalen, Sander
Single-crystal-to-single-crystal phase transitions of commensurately modulated sodium saccharinate 1.875-hydrate
IUCrJ, 2021, 8, 139-147
1559961 CIFC7 H4 N Na O4.875 SC -118.5729; 7.0819; 29.0233
89.9808; 93.511; 89.9763		3810.31Rekis, Toms; Schaller, Achim M.; Kotla, Surya Rohith; Schönleber, Andreas; Noohinejad, Leila; Tolkiehn, Martin; Paulmann, Carsten; van Smaalen, Sander
Single-crystal-to-single-crystal phase transitions of commensurately modulated sodium saccharinate 1.875-hydrate
IUCrJ, 2021, 8, 139-147
1560041 CIF
Paper		C20 H22 N4 O8P 17.7162; 8.9727; 16.9089
86.559; 78.838; 66.314		1051.59Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560042 CIFC18 H23 N4 O4P -17.658; 9.277; 15.152
79.304; 82.008; 65.214		958Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560043 CIFC32 H23 N3 O3.99P -19.2447; 14.4694; 19.3202
93.232; 102.634; 97.795		2488.6Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560044 CIFC12 H13 N3 O4C 1 2/c 18.7482; 14.926; 10.2464
90; 110.165; 90		1255.9Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560045 CIFC19 H15 N3 O4P -17.7638; 8.5897; 12.723
105.585; 102.978; 95.062		786.4Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560046 CIFC26 H21 N5 O4P -17.3217; 11.6513; 13.9987
105.915; 102.665; 91.242		1116.2Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560047 CIFC42 H34 N8 O8P -17.4323; 9.1138; 14.562
106.397; 103.133; 90.486		918.7Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560048 CIFC18 H17 N3 O4P 1 21/c 117.802; 7.5355; 12.5671
90; 91.187; 90		1685.5Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560049 CIFC18 H15 N3 O4P 1 21/c 117.9122; 7.4259; 12.1765
90; 92.337; 90		1618.3Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560050 CIFC16 H13 N5 O4P 1 21/c 118.213; 7.2967; 11.94
90; 92.967; 90		1584.6Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560051 CIFC20 H25 N5 O4P -17.7563; 8.1082; 16.24
97.387; 95.164; 95.007		1003.7Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560052 CIFC13 H15 N3 O4P 1 21/n 110.1301; 12.6967; 10.3338
90; 99.17; 90		1312.1Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560053 CIFC29 H26 N3 O4P 1 21 17.7925; 12.885; 12.398
90; 104.054; 90		1207.6Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560054 CIFC58 H50 N6 O8P -113.337; 13.504; 16.069
75.831; 66.422; 67.934		2442.9Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560055 CIFC40 H46 N8 O8P -17.5319; 8.6425; 15.3925
78.729; 75.782; 89.099		951.99Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560056 CIFC38 H42 N8 O8P -17.4104; 8.8964; 15.7722
95.531; 101.446; 111.676		930.47Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560057 CIFC22 H23 N3 O4 S2P -17.6512; 8.9495; 18.121
87.883; 78.725; 65.728		1108Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560058 CIFC62 H50 N6 O8P -17.684; 9.266; 18.043
96.343; 94.419; 107.054		1212.5Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560059 CIFC50 H52 N8 O8P -17.7634; 8.9486; 16.368
83.021; 82.842; 88.111		1119.7Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560060 CIFC42 H42 N8 O8P -17.5543; 8.914; 14.713
85.797; 88.497; 89.487		987.7Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560061 CIFC42 H40 N8 O8P -17.504; 9.428; 14.102
94.052; 91.192; 90.498		994.9Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560062 CIFC40 H40 N6 O8 S2P -17.489; 9.107; 14.187
97.784; 93.611; 90.872		956.5Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560063 CIFC40 H38 N6 O8 S2P -17.514; 9.272; 13.852
83.832; 89.887; 88.173		959Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560064 CIFC41 H41 N7 O8 SP -17.4741; 9.2215; 14.295
96.245; 92.609; 92.314		977.4Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560065 CIFC41 H39 N7 O8 SP -17.4078; 9.3192; 13.815
94.239; 91.445; 90.299		950.8Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560066 CIFC14 H16 Cl2 N2 O2P 1 21/n 19.302; 9.394; 17.66
90; 104.075; 90		1496.9Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560067 CIFC72 H48 Cl4 N10 O4P -110.807; 12.145; 12.466
108.22; 104.061; 101.072		1442.4Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560068 CIFC12 H12 Cl2 N2 O2P 1 21/c 18.188; 15.73; 11.247
90; 110.491; 90		1357Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560069 CIFC44 H42 Cl4 N4 O4C 1 2/c 142.727; 8.899; 22.92
90; 114.062; 90		7958Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560070 CIFC84 H54 Cl4 N4 O4C 1 2/c 133.873; 10.374; 18.332
90; 91.186; 90		6440Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560071 CIFC28 H22 Cl2 N2 O2P -18.8453; 10.4891; 12.694
94.129; 94.866; 98.239		1157.1Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560072 CIFC80 H66 Cl8 N8 O8P 1 21 117.219; 22.693; 18.331
90; 91.312; 90		7161Rajkumar, Madhu; Desiraju, Gautam R.
Quaternary and quinary molecular solids based on structural inequivalence and combinatorial approaches: 2-nitroresorcinol and 4,6-dichlororesorcinol
IUCrJ, 2021, 8, 178-185
1560131 CIFC23 H20 N4 O10P 1 21/n 119.932; 4.461; 24.275
90; 97.73; 90		2138.8Xia, Yanming; Wei, Yuanfeng; Chen, Hui; Qian, Shuai; Zhang, Jianjun; Gao, Yuan
Competitive cocrystallization and its application in the separation of flavonoids
IUCrJ, 2021, 8, 195-207
1560861 CIFC26 H32 N2 Ni O2P -16.4256; 7.7129; 11.9856
98.709; 101.8; 104.3		550.52Shiryaev, Alexey A.; Burkhanova, Tatyana M.; Mitoraj, Mariusz P.; Kukulka, Mercedes; Sagan, Filip; Mahmoudi, Ghodrat; Babashkina, Maria G.; Bolte, Michael; Safin, Damir A.
Supramolecular structures of NiII and CuII with the sterically demanding Schiff base dyes driven by cooperative action of preagostic and other non-covalent interactions
IUCrJ, 2021, 8
1560862 CIFC26 H32 Cu N2 O2P -16.4641; 7.7224; 11.9925
97.647; 101.861; 105.261		553.99Shiryaev, Alexey A.; Burkhanova, Tatyana M.; Mitoraj, Mariusz P.; Kukulka, Mercedes; Sagan, Filip; Mahmoudi, Ghodrat; Babashkina, Maria G.; Bolte, Michael; Safin, Damir A.
Supramolecular structures of NiII and CuII with the sterically demanding Schiff base dyes driven by cooperative action of preagostic and other non-covalent interactions
IUCrJ, 2021, 8
1560863 CIFC34 H36 N2 Ni O2P 1 21/n 16.0847; 10.5704; 20.8597
90; 97.882; 90		1328.97Shiryaev, Alexey A.; Burkhanova, Tatyana M.; Mitoraj, Mariusz P.; Kukulka, Mercedes; Sagan, Filip; Mahmoudi, Ghodrat; Babashkina, Maria G.; Bolte, Michael; Safin, Damir A.
Supramolecular structures of NiII and CuII with the sterically demanding Schiff base dyes driven by cooperative action of preagostic and other non-covalent interactions
IUCrJ, 2021, 8
1560864 CIFC34 H36 Cu N2 O2P 1 21/n 111.0325; 5.6889; 21.554
90; 99.41; 90		1334.59Shiryaev, Alexey A.; Burkhanova, Tatyana M.; Mitoraj, Mariusz P.; Kukulka, Mercedes; Sagan, Filip; Mahmoudi, Ghodrat; Babashkina, Maria G.; Bolte, Michael; Safin, Damir A.
Supramolecular structures of NiII and CuII with the sterically demanding Schiff base dyes driven by cooperative action of preagostic and other non-covalent interactions
IUCrJ, 2021, 8
1563356 CIFC15 H7 Cl2 N4 O2P 1 21/n 16.7493; 10.072; 20.462
90; 94.781; 90		1386.1Milašinović, Valentina; Molčanov, Krešimir; Krawczuk, Anna; Bogdanov, Nikita E.; Zakharov, Boris A.; Boldyreva, Elena V.; Jelsch, Christian; Kojić-Prodić, Biserka
Charge density studies of multicentre two-electron bonding of an anion radical at non-ambient temperature and pressure
IUCrJ, 2021, 8
1563357 CIFC15 H7 Cl2 N4 O2P 1 21/n 16.7637; 10.0716; 20.4697
90; 94.79; 90		1389.55Milašinović, Valentina; Molčanov, Krešimir; Krawczuk, Anna; Bogdanov, Nikita E.; Zakharov, Boris A.; Boldyreva, Elena V.; Jelsch, Christian; Kojić-Prodić, Biserka
Charge density studies of multicentre two-electron bonding of an anion radical at non-ambient temperature and pressure
IUCrJ, 2021, 8
1563358 CIFC15 H7 Cl2 N4 O2P 1 21/n 16.7832; 10.0779; 20.4867
90; 94.754; 90		1395.66Milašinović, Valentina; Molčanov, Krešimir; Krawczuk, Anna; Bogdanov, Nikita E.; Zakharov, Boris A.; Boldyreva, Elena V.; Jelsch, Christian; Kojić-Prodić, Biserka
Charge density studies of multicentre two-electron bonding of an anion radical at non-ambient temperature and pressure
IUCrJ, 2021, 8
1563359 CIFC15 H7 Cl2 N4 O2P 1 21/n 16.7983; 10.0786; 20.4949
90; 94.744; 90		1399.44Milašinović, Valentina; Molčanov, Krešimir; Krawczuk, Anna; Bogdanov, Nikita E.; Zakharov, Boris A.; Boldyreva, Elena V.; Jelsch, Christian; Kojić-Prodić, Biserka
Charge density studies of multicentre two-electron bonding of an anion radical at non-ambient temperature and pressure
IUCrJ, 2021, 8
1563360 CIFC15 H7 Cl2 N4 O2P 1 21/n 16.8159; 10.0882; 20.5143
90; 94.74; 90		1405.74Milašinović, Valentina; Molčanov, Krešimir; Krawczuk, Anna; Bogdanov, Nikita E.; Zakharov, Boris A.; Boldyreva, Elena V.; Jelsch, Christian; Kojić-Prodić, Biserka
Charge density studies of multicentre two-electron bonding of an anion radical at non-ambient temperature and pressure
IUCrJ, 2021, 8
1563361 CIFC15 H7 Cl2 N4 O2P 1 21/n 16.8491; 10.096; 20.5281
90; 94.735; 90		1414.64Milašinović, Valentina; Molčanov, Krešimir; Krawczuk, Anna; Bogdanov, Nikita E.; Zakharov, Boris A.; Boldyreva, Elena V.; Jelsch, Christian; Kojić-Prodić, Biserka
Charge density studies of multicentre two-electron bonding of an anion radical at non-ambient temperature and pressure
IUCrJ, 2021, 8
1563362 CIFC15 H7 Cl2 N4 O2P 1 21/n 16.855; 10.0998; 20.5333
90; 94.69; 90		1416.84Milašinović, Valentina; Molčanov, Krešimir; Krawczuk, Anna; Bogdanov, Nikita E.; Zakharov, Boris A.; Boldyreva, Elena V.; Jelsch, Christian; Kojić-Prodić, Biserka
Charge density studies of multicentre two-electron bonding of an anion radical at non-ambient temperature and pressure
IUCrJ, 2021, 8
1563363 CIFC15 H7 Cl2 N4 O2P 1 21/n 16.8717; 10.105; 20.5512
90; 94.688; 90		1422.27Milašinović, Valentina; Molčanov, Krešimir; Krawczuk, Anna; Bogdanov, Nikita E.; Zakharov, Boris A.; Boldyreva, Elena V.; Jelsch, Christian; Kojić-Prodić, Biserka
Charge density studies of multicentre two-electron bonding of an anion radical at non-ambient temperature and pressure
IUCrJ, 2021, 8
1563364 CIFC15 H7 Cl2 N4 O2P 1 21/n 16.8752; 10.1004; 20.5391
90; 94.709; 90		1421.47Milašinović, Valentina; Molčanov, Krešimir; Krawczuk, Anna; Bogdanov, Nikita E.; Zakharov, Boris A.; Boldyreva, Elena V.; Jelsch, Christian; Kojić-Prodić, Biserka
Charge density studies of multicentre two-electron bonding of an anion radical at non-ambient temperature and pressure
IUCrJ, 2021, 8
1563365 CIFC15 H7 Cl2 N4 O2P 1 21/n 16.9337; 10.1217; 20.599
90; 94.713; 90		1440.8Milašinović, Valentina; Molčanov, Krešimir; Krawczuk, Anna; Bogdanov, Nikita E.; Zakharov, Boris A.; Boldyreva, Elena V.; Jelsch, Christian; Kojić-Prodić, Biserka
Charge density studies of multicentre two-electron bonding of an anion radical at non-ambient temperature and pressure
IUCrJ, 2021, 8
1563366 CIFC15 H7 Cl2 N4 O2P 1 21/n 16.9626; 10.1312; 20.609
90; 94.7; 90		1448.86Milašinović, Valentina; Molčanov, Krešimir; Krawczuk, Anna; Bogdanov, Nikita E.; Zakharov, Boris A.; Boldyreva, Elena V.; Jelsch, Christian; Kojić-Prodić, Biserka
Charge density studies of multicentre two-electron bonding of an anion radical at non-ambient temperature and pressure
IUCrJ, 2021, 8
1563367 CIFC15 H7 Cl2 N4 O2P 1 21/n 16.8312; 10.0839; 20.5232
90; 94.635; 90		1409.12Milašinović, Valentina; Molčanov, Krešimir; Krawczuk, Anna; Bogdanov, Nikita E.; Zakharov, Boris A.; Boldyreva, Elena V.; Jelsch, Christian; Kojić-Prodić, Biserka
Charge density studies of multicentre two-electron bonding of an anion radical at non-ambient temperature and pressure
IUCrJ, 2021, 8
1563368 CIFC15 H7 Cl2 N4 O2P 1 21/n 16.7445; 10.0486; 20.4539
90; 94.589; 90		1381.77Milašinović, Valentina; Molčanov, Krešimir; Krawczuk, Anna; Bogdanov, Nikita E.; Zakharov, Boris A.; Boldyreva, Elena V.; Jelsch, Christian; Kojić-Prodić, Biserka
Charge density studies of multicentre two-electron bonding of an anion radical at non-ambient temperature and pressure
IUCrJ, 2021, 8
1563369 CIFC15 H7 Cl2 N4 O2P 1 21/n 16.6277; 10.005; 20.3418
90; 94.609; 90		1344.51Milašinović, Valentina; Molčanov, Krešimir; Krawczuk, Anna; Bogdanov, Nikita E.; Zakharov, Boris A.; Boldyreva, Elena V.; Jelsch, Christian; Kojić-Prodić, Biserka
Charge density studies of multicentre two-electron bonding of an anion radical at non-ambient temperature and pressure
IUCrJ, 2021, 8
1563370 CIFC15 H7 Cl2 N4 O2P 1 21/n 16.5155; 9.9444; 20.2293
90; 94.662; 90		1306.38Milašinović, Valentina; Molčanov, Krešimir; Krawczuk, Anna; Bogdanov, Nikita E.; Zakharov, Boris A.; Boldyreva, Elena V.; Jelsch, Christian; Kojić-Prodić, Biserka
Charge density studies of multicentre two-electron bonding of an anion radical at non-ambient temperature and pressure
IUCrJ, 2021, 8
1563371 CIFC15 H7 Cl2 N4 O2P 1 21/n 16.4387; 9.9135; 20.1349
90; 94.729; 90		1280.84Milašinović, Valentina; Molčanov, Krešimir; Krawczuk, Anna; Bogdanov, Nikita E.; Zakharov, Boris A.; Boldyreva, Elena V.; Jelsch, Christian; Kojić-Prodić, Biserka
Charge density studies of multicentre two-electron bonding of an anion radical at non-ambient temperature and pressure
IUCrJ, 2021, 8
1563372 CIFC15 H7 Cl2 N4 O2P 1 21/n 16.259; 9.8519; 19.8571
90; 95.624; 90		1218.56Milašinović, Valentina; Molčanov, Krešimir; Krawczuk, Anna; Bogdanov, Nikita E.; Zakharov, Boris A.; Boldyreva, Elena V.; Jelsch, Christian; Kojić-Prodić, Biserka
Charge density studies of multicentre two-electron bonding of an anion radical at non-ambient temperature and pressure
IUCrJ, 2021, 8
1563373 CIFC15 H7 Cl2 N4 O2P 1 21/n 16.2058; 9.8299; 19.7739
90; 95.781; 90		1200.12Milašinović, Valentina; Molčanov, Krešimir; Krawczuk, Anna; Bogdanov, Nikita E.; Zakharov, Boris A.; Boldyreva, Elena V.; Jelsch, Christian; Kojić-Prodić, Biserka
Charge density studies of multicentre two-electron bonding of an anion radical at non-ambient temperature and pressure
IUCrJ, 2021, 8
1564497 CIFC10 H24 Cl2 Co N4 S2P 1 21/n 19.9071; 12.7019; 14.1556
90; 92.824; 90		1779.16Klahn, Emil Andreasen; Damgaard-Møller, Emil; Krause, Lennard; Kibalin, Iurii; Gukasov, Arsen; Tripathi, Shalini; Swain, Abinash; Shanmugam, Maheswaran; Overgaard, Jacob
Quantifying magnetic anisotropy using X-ray and neutron diffraction
IUCrJ, 2021, 8
1564498 CIFC10 H24 Br2 Co N4 S2P 1 21/n 19.798; 12.961; 14.636
90; 92.363; 90		1857.1Klahn, Emil Andreasen; Damgaard-Møller, Emil; Krause, Lennard; Kibalin, Iurii; Gukasov, Arsen; Tripathi, Shalini; Swain, Abinash; Shanmugam, Maheswaran; Overgaard, Jacob
Quantifying magnetic anisotropy using X-ray and neutron diffraction
IUCrJ, 2021, 8
1564942 CIF
Paper		C20 H14 O2P n m a7.21024; 16.4876; 11.2792
90; 90; 90		1340.87Tchoń, D.; Makal, A.
Maximizing completeness in single-crystal high-pressure diffraction experiments: phase transitions in 2{^i̧rc}AP
IUCrJ, 2021, 8
1564943 CIFC20 H14 O2P n m a7.2462; 16.536; 11.255
90; 90; 90		1348.6Tchoń, D.; Makal, A.
Maximizing completeness in single-crystal high-pressure diffraction experiments: phase transitions in 2{^i̧rc}AP
IUCrJ, 2021, 8
1564944 CIFC20 H14 O2P n m a7.15; 16.17; 11.288
90; 90; 90		1305Tchoń, D.; Makal, A.
Maximizing completeness in single-crystal high-pressure diffraction experiments: phase transitions in 2{^i̧rc}AP
IUCrJ, 2021, 8
1564945 CIFC20 H14 O2P n m a7.0642; 16.22; 11.165
90; 90; 90		1279.3Tchoń, D.; Makal, A.
Maximizing completeness in single-crystal high-pressure diffraction experiments: phase transitions in 2{^i̧rc}AP
IUCrJ, 2021, 8
1564946 CIFC20 H14 O2P n 21 a7.03; 16.147; 11.1214
90; 90; 90		1262.4Tchoń, D.; Makal, A.
Maximizing completeness in single-crystal high-pressure diffraction experiments: phase transitions in 2{^i̧rc}AP
IUCrJ, 2021, 8
1564947 CIFC20 H14 O2P n 21 a7.0202; 16.0775; 11.161
90; 90; 90		1259.7Tchoń, D.; Makal, A.
Maximizing completeness in single-crystal high-pressure diffraction experiments: phase transitions in 2{^i̧rc}AP
IUCrJ, 2021, 8
1564948 CIFC20 H14 O2P n 21 a6.9714; 16.139; 11.072
90; 90; 90		1245.7Tchoń, D.; Makal, A.
Maximizing completeness in single-crystal high-pressure diffraction experiments: phase transitions in 2{^i̧rc}AP
IUCrJ, 2021, 8
1564949 CIFC20 H14 O2P 1 1 21/a6.8697; 15.96; 11.1099
90; 90; 95.074		1213.3Tchoń, D.; Makal, A.
Maximizing completeness in single-crystal high-pressure diffraction experiments: phase transitions in 2{^i̧rc}AP
IUCrJ, 2021, 8
1565826 CIFK2 Mg2 O12 S3P 21 39.91895; 9.91895; 9.91895
90; 90; 90		975.882Gajda, Roman; Zhang, Dongzhou; Parafiniuk, Jan; Dera, Przemysław; Woźniak, Krzysztof
Tracing electron density changes in langbeinite under pressure
IUCrJ, 2022, 9, 146-162
1565827 CIFK2 Mg2 O12 S3P 21 39.91895; 9.91895; 9.91895
90; 90; 90		975.882Gajda, Roman; Zhang, Dongzhou; Parafiniuk, Jan; Dera, Przemysław; Woźniak, Krzysztof
Tracing electron density changes in langbeinite under pressure
IUCrJ, 2022, 9, 146-162
1565828 CIFK2 Mg2 O12 S3P 21 39.91977; 9.91977; 9.91977
90; 90; 90		976.124Gajda, Roman; Zhang, Dongzhou; Parafiniuk, Jan; Dera, Przemysław; Woźniak, Krzysztof
Tracing electron density changes in langbeinite under pressure
IUCrJ, 2022, 9, 146-162
1565829 CIFK2 Mg2 O12 S3P 21 39.91977; 9.91977; 9.91977
90; 90; 90		976.124Gajda, Roman; Zhang, Dongzhou; Parafiniuk, Jan; Dera, Przemysław; Woźniak, Krzysztof
Tracing electron density changes in langbeinite under pressure
IUCrJ, 2022, 9, 146-162
1565830 CIFK2 Mg2 O12 S3P 21 39.9045; 9.9045; 9.9045
90; 90; 90		971.623Gajda, Roman; Zhang, Dongzhou; Parafiniuk, Jan; Dera, Przemysław; Woźniak, Krzysztof
Tracing electron density changes in langbeinite under pressure
IUCrJ, 2022, 9, 146-162
1565831 CIFK2 Mg2 O12 S3P 21 39.9045; 9.9045; 9.9045
90; 90; 90		971.623Gajda, Roman; Zhang, Dongzhou; Parafiniuk, Jan; Dera, Przemysław; Woźniak, Krzysztof
Tracing electron density changes in langbeinite under pressure
IUCrJ, 2022, 9, 146-162
1565846 CIF
Paper		C54 H58 Cl3 O11 RbP -113.44; 14.3933; 14.8036
84.073; 76.728; 62.777		2478.47Kim, Seulgi; Jung, Jong Hwa; Lee, Shim Sung; Park, In-Hyeok
Regioisomers of singly bridged calix[6]crown-6 and their heavy alkali metal complexes: a molecular baseball glove for caesium(I)
IUCrJ, 2022, 9, 43-48
1565847 CIFC55 H53 Cl9 Cs O10P 1 21/n 113.1773; 20.344; 22.581
90; 106.172; 90		5814Kim, Seulgi; Jung, Jong Hwa; Lee, Shim Sung; Park, In-Hyeok
Regioisomers of singly bridged calix[6]crown-6 and their heavy alkali metal complexes: a molecular baseball glove for caesium(I)
IUCrJ, 2022, 9, 43-48
1565848 CIFC53 H55 Cl3 Cs2 O11P 1 21/c 113.166; 31.338; 14.278
90; 117.28; 90		5236Kim, Seulgi; Jung, Jong Hwa; Lee, Shim Sung; Park, In-Hyeok
Regioisomers of singly bridged calix[6]crown-6 and their heavy alkali metal complexes: a molecular baseball glove for caesium(I)
IUCrJ, 2022, 9, 43-48
1565849 CIF
Paper		Cu H10 O9 SP -15.9523; 6.1001; 10.647
77.308; 82.353; 72.64		359.02Novelli, Giulia; Kamenev, Konstantin V.; Maynard-Casely, Helen E.; Parsons, Simon; McIntyre, Garry J.
Use of a miniature diamond-anvil cell in a joint X-ray and neutron high-pressure study on copper sulfate pentahydrate
IUCrJ, 2022, 9, 73-85
1565850 CIFCu H10 O9 SP -15.9523; 6.1001; 10.647
77.308; 82.353; 72.64		359.02Novelli, Giulia; Kamenev, Konstantin V.; Maynard-Casely, Helen E.; Parsons, Simon; McIntyre, Garry J.
Use of a miniature diamond-anvil cell in a joint X-ray and neutron high-pressure study on copper sulfate pentahydrate
IUCrJ, 2022, 9, 73-85
1565851 CIFCu H10 O9 SP -15.9523; 6.1001; 10.647
77.308; 82.353; 72.64		359.016Novelli, Giulia; Kamenev, Konstantin V.; Maynard-Casely, Helen E.; Parsons, Simon; McIntyre, Garry J.
Use of a miniature diamond-anvil cell in a joint X-ray and neutron high-pressure study on copper sulfate pentahydrate
IUCrJ, 2022, 9, 73-85
1565852 CIFCu H10 O9 SP -15.9523; 6.1001; 10.647
77.308; 82.353; 72.64		359.016Novelli, Giulia; Kamenev, Konstantin V.; Maynard-Casely, Helen E.; Parsons, Simon; McIntyre, Garry J.
Use of a miniature diamond-anvil cell in a joint X-ray and neutron high-pressure study on copper sulfate pentahydrate
IUCrJ, 2022, 9, 73-85
1565853 CIF
Paper		C73 H100 O6P 1 21/c 116.252; 23.5373; 17.2102
90; 101.773; 90		6444.9Malinska, Maura
Insights into molecular recognition from the crystal structures of <i>p-tert</i>-butylcalix[6]arene complexed with different solvents
IUCrJ, 2022, 9, 55-64
1565854 CIF
Paper		C66 H84 O6P -19.59; 18.199; 18.547
114.31; 91.36; 91.7		2946Malinska, Maura
Insights into molecular recognition from the crystal structures of <i>p-tert</i>-butylcalix[6]arene complexed with different solvents
IUCrJ, 2022, 9, 55-64
1565855 CIF
Paper		C70 H92 Cl8 O6P -113.8727; 16.0717; 17.6177
77.127; 66.915; 76.404		3474.5Malinska, Maura
Insights into molecular recognition from the crystal structures of <i>p-tert</i>-butylcalix[6]arene complexed with different solvents
IUCrJ, 2022, 9, 55-64
1565856 CIF
Paper		C68 H88 Cl4 O6P -112.261; 17.2425; 17.417
118.625; 92.647; 98.062		3172.8Malinska, Maura
Insights into molecular recognition from the crystal structures of <i>p-tert</i>-butylcalix[6]arene complexed with different solvents
IUCrJ, 2022, 9, 55-64
1565857 CIF
Paper		C84 H102 O6P -113.5391; 14.7702; 19.045
80.68; 72.393; 78.191		3532.8Malinska, Maura
Insights into molecular recognition from the crystal structures of <i>p-tert</i>-butylcalix[6]arene complexed with different solvents
IUCrJ, 2022, 9, 55-64
1565858 CIF
Paper		C69 H90 Cl6 O6P 1 21/c 117.8792; 19.6559; 18.9669
90; 96.732; 90		6619.6Malinska, Maura
Insights into molecular recognition from the crystal structures of <i>p-tert</i>-butylcalix[6]arene complexed with different solvents
IUCrJ, 2022, 9, 55-64
1565859 CIF
Paper		C72 H96 O6P 1 21/n 117.2109; 18.2986; 19.6172
90; 94.521; 90		6158.9Malinska, Maura
Insights into molecular recognition from the crystal structures of <i>p-tert</i>-butylcalix[6]arene complexed with different solvents
IUCrJ, 2022, 9, 55-64
1565860 CIF
Paper		C73 H92 O6P 1 21/n 117.1817; 18.7393; 19.4157
90; 95.843; 90		6218.9Malinska, Maura
Insights into molecular recognition from the crystal structures of <i>p-tert</i>-butylcalix[6]arene complexed with different solvents
IUCrJ, 2022, 9, 55-64
1565861 CIF
Paper		C69 H90 O8P 1 21/n 117.0366; 18.4996; 19.762
90; 94.288; 90		6210.96Malinska, Maura
Insights into molecular recognition from the crystal structures of <i>p-tert</i>-butylcalix[6]arene complexed with different solvents
IUCrJ, 2022, 9, 55-64
1565862 CIF
Paper		C70 H92 O7P 1 21/n 117.1261; 17.8832; 19.8489
90; 93.914; 90		6064.9Malinska, Maura
Insights into molecular recognition from the crystal structures of <i>p-tert</i>-butylcalix[6]arene complexed with different solvents
IUCrJ, 2022, 9, 55-64
1565863 CIF
Paper		C73 H92 O7P -114.1349; 16.1763; 17.0355
83.979; 72.392; 73.292		3555.3Malinska, Maura
Insights into molecular recognition from the crystal structures of <i>p-tert</i>-butylcalix[6]arene complexed with different solvents
IUCrJ, 2022, 9, 55-64
1565864 CIF
Paper		C4 H2 Cl N5P 21 21 217.0651; 8.7859; 10.0906
90; 90; 90		626.36Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565865 CIFC4 H2 Cl N5P 21 21 217.0604; 8.78; 10.0712
90; 90; 90		624.32Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565866 CIFC4 H2 Cl N5P 21 21 217.0533; 8.7742; 10.0552
90; 90; 90		622.29Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565867 CIFC4 H2 Cl N5P 21 21 217.0476; 8.7682; 10.0363
90; 90; 90		620.19Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565868 CIFC4 H2 Cl N5P 21 21 217.0422; 8.7617; 10.0158
90; 90; 90		617.99Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565869 CIFC4 H2 Cl N5P 21 21 217.0473; 8.7636; 10.0299
90; 90; 90		619.44Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565870 CIFC4 H2 Cl N5P 21 21 217.0342; 8.7569; 10.0049
90; 90; 90		616.28Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565871 CIFC4 H2 Cl N5P 21 21 217.0336; 8.7575; 10.0065
90; 90; 90		616.37Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565872 CIFC4 H2 Cl N5P 21 21 217.0291; 8.7539; 9.9932
90; 90; 90		614.902Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565873 CIFC4 H2 Cl N5P 21 21 217.0245; 8.7517; 9.9817
90; 90; 90		613.638Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565874 CIFC4 H2 Cl N5P 21 21 217.0753; 8.7825; 10.099
90; 90; 90		627.5Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565875 CIFC4 H2 Cl N5P 21 21 216.934; 8.7568; 10.029
90; 90; 90		609Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565876 CIFC4 H2 Cl N5P n m a10.697; 6.2545; 8.8012
90; 90; 90		588.8Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565877 CIFC4 H2 Cl N5P n m a10.654; 6.1954; 8.7823
90; 90; 90		579.68Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565878 CIFC4 H2 Cl N5P 21 21 217.0542; 8.7774; 10.1041
90; 90; 90		625.62Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565879 CIFC4 H2 Cl N5P 21 21 217.0733; 8.7965; 10.042
90; 90; 90		624.8Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565880 CIFC4 H2 Cl N5P 21 21 216.9987; 8.774; 10.0863
90; 90; 90		619.37Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565881 CIFC4 H2 Cl N5P 21 21 217.005; 8.7554; 10.086
90; 90; 90		618.6Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565882 CIFC4 H2 Cl N5P 21 21 217.0156; 8.7539; 10.0529
90; 90; 90		617.39Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565883 CIFC4 H2 Cl N5P 21 21 216.9235; 8.7578; 10.0265
90; 90; 90		607.95Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565884 CIFC4 H2 Cl N5P n m a10.668; 6.2042; 8.78
90; 90; 90		581.1Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565885 CIFC4 H2 Cl N5P 1 21/c 17.878; 13.2446; 5.7134
90; 101.14; 90		584.9Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565886 CIFC4 H2 Cl N5P 1 21/c 17.885; 13.2116; 5.6949
90; 101.2; 90		582Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565887 CIFC4 H2 Cl N5P 1 21/c 17.864; 13.1668; 5.6843
90; 101.159; 90		577.4Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565888 CIFC4 H2 Cl N5P 1 21/c 17.824; 13.1476; 5.6603
90; 101.05; 90		571.5Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565889 CIFC4 H2 Cl N5P 1 21/c 17.824; 13.0789; 5.629
90; 100.793; 90		565.8Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565890 CIFC4 H2 Cl N5P 1 21/c 17.836; 12.9703; 5.5885
90; 100.542; 90		558.4Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565891 CIFC4 H2 Cl N5P 1 21/c 17.808; 12.9522; 5.5722
90; 100.54; 90		554Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565892 CIFC4 H2 Cl N5P 1 21/c 17.756; 12.7163; 5.468
90; 100.006; 90		531.1Olejniczak, Anna; Katrusiak, Anna; Podsiadło, Marcin; Katrusiak, Andrzej
Stochastic hydration of a high-nitrogen-content molecular compound recrystallized under pressure
IUCrJ, 2022, 9, 49-54
1565934 CIFH2 Mg O5 SC 1 2/c 16.8611; 7.6716; 7.6014
90; 117.787; 90		353.97Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565935 CIFH2 Mg O5 SC 1 2/c 16.856; 7.6675; 7.6008
90; 117.821; 90		353.38Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565936 CIFFe0 H2 Mg O5 SC 1 2/c 16.8648; 7.6684; 7.6055
90; 117.792; 90		354.18Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565937 CIFFe0 H2 Mg O5 SC 1 2/c 16.8717; 7.6629; 7.6098
90; 117.833; 90		354.35Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565938 CIFFe0 H2 Mg O5 SC 1 2/c 16.8815; 7.6534; 7.6172
90; 117.884; 90		354.6Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565939 CIFFe0 H2 Mg O5 SC 1 2/c 16.8937; 7.6466; 7.6275
90; 117.943; 90		355.2Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565940 CIFFe0 H2 Mg O5 SC 1 2/c 16.907; 7.6356; 7.6373
90; 118.021; 90		355.57Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565941 CIFFe0 H2 Mg O5 SC 1 2/c 16.9227; 7.6212; 7.6488
90; 118.112; 90		355.94Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565942 CIFFe H2 O5 SC 1 2/c 17.0304; 7.5789; 7.7374
90; 118.314; 90		362.95Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565943 CIFFe H2 O5 SC 1 2/c 17.032; 7.5783; 7.7396
90; 118.328; 90		363.06Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565944 CIFFe H2 O5 SC 1 2/c 17.0337; 7.5789; 7.7406
90; 118.325; 90		363.23Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565945 CIFFe H2 Mg0 O5 SC 1 2/c 17.0404; 7.5756; 7.745
90; 118.368; 90		363.48Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565946 CIFFe H2 Mg0 O5 SC 1 2/c 17.0482; 7.5706; 7.7498
90; 118.404; 90		363.74Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565947 CIFFe H2 Mg0 O5 SC 1 2/c 17.058; 7.5663; 7.7576
90; 118.454; 90		364.23Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565948 CIFFe H2 Mg0 O5 SC 1 2/c 17.0696; 7.562; 7.7669
90; 118.515; 90		364.85Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565949 CIFFe H2 Mg0 O5 SC 1 2/c 17.0802; 7.5565; 7.7755
90; 118.579; 90		365.31Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565950 CIFFe H2 Mg0 O5 SC 1 2/c 17.0923; 7.5523; 7.7848
90; 118.648; 90		365.93Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565951 CIFCo H2 O5 SC 1 2/c 16.9143; 7.629; 7.5815
90; 118.191; 90		352.48Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565952 CIFCo H2 O5 SC 1 2/c 16.9142; 7.6267; 7.581
90; 118.179; 90		352.38Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565953 CIFCo H2 O5 SC 1 2/c 16.9295; 7.6205; 7.5982
90; 118.381; 90		353.01Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565954 CIFCo H2 O5 SC 1 2/c 16.9354; 7.6179; 7.6043
90; 118.397; 90		353.42Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565955 CIFCo H2 O5 SC 1 2/c 16.9432; 7.6126; 7.6107
90; 118.441; 90		353.72Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565956 CIFCo H2 O5 SC 1 2/c 16.9526; 7.6051; 7.6184
90; 118.497; 90		354.02Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565957 CIFCo H2 O5 SC 1 2/c 16.9641; 7.599; 7.6275
90; 118.553; 90		354.56Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565958 CIFCo H2 O5 SC 1 2/c 16.9765; 7.5904; 7.6373
90; 118.616; 90		355.03Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565959 CIFH2 Ni O5 SC 1 2/c 16.7979; 7.6403; 7.4489
90; 117.51; 90		343.14Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565960 CIFH2 Ni O5 SC 1 2/c 16.7999; 7.6222; 7.4405
90; 117.579; 90		341.82Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565961 CIFH2 Ni O5 SC 1 2/c 16.8026; 7.6191; 7.445
90; 117.611; 90		341.93Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565962 CIFH2 Ni O5 SC 1 2/c 16.8037; 7.6178; 7.4371
90; 117.58; 90		341.66Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565963 CIFH2 Ni O5 SC 1 2/c 16.8069; 7.6152; 7.4398
90; 117.597; 90		341.77Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565964 CIFH2 Ni O5 SC 1 2/c 16.8115; 7.6122; 7.4444
90; 117.629; 90		341.98Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565965 CIFH2 Ni O5 SC 1 2/c 16.8176; 7.6098; 7.4513
90; 117.676; 90		342.35Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565966 CIFH2 Ni O5 SC 1 2/c 16.8252; 7.607; 7.4587
90; 117.724; 90		342.79Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1565967 CIFH2 Ni O5 SC 1 2/c 16.8332; 7.6026; 7.4669
90; 117.776; 90		343.21Wildner, Manfred; Zakharov, Boris A.; Bogdanov, Nikita E.; Talla, Dominik; Boldyreva, Elena V.; Miletich, Ronald
Crystallography relevant to Mars and Galilean icy moons: crystal behavior of kieserite-type monohydrate sulfates at extraterrestrial conditions down to 15 K
IUCrJ, 2022, 9, 194-203
1566428 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566429 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566430 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566431 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566432 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566433 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566434 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566435 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566436 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566437 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566438 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566439 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566440 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566441 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566442 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566443 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566444 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566445 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566446 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566447 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566448 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566449 CIFC3 H7 N O2P 21 21 215.9279; 12.2597; 5.7939
90; 90; 90		421.07Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566450 CIFC13 H11 N O5P 21 21 215.3386; 9.9878; 22.3493
90; 90; 90		1191.68Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566451 CIFC13 H11 N O5P 21 21 215.3386; 9.9878; 22.3493
90; 90; 90		1191.68Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566452 CIFC13 H11 N O5P 21 21 215.3386; 9.9878; 22.3493
90; 90; 90		1191.68Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566453 CIFC13 H11 N O5P 21 21 215.3386; 9.9878; 22.3493
90; 90; 90		1191.68Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566454 CIFC13 H11 N O5P 21 21 215.3386; 9.9878; 22.3493
90; 90; 90		1191.68Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566456 CIFC13 H11 N O5P 21 21 215.3386; 9.9878; 22.3493
90; 90; 90		1191.68Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566457 CIFC13 H11 N O5P 21 21 215.3386; 9.9878; 22.3493
90; 90; 90		1191.68Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566458 CIFC13 H11 N O5P 21 21 215.3386; 9.9878; 22.3493
90; 90; 90		1191.68Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566459 CIFC13 H11 N O5P 21 21 215.3386; 9.9878; 22.3493
90; 90; 90		1191.68Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566460 CIFC13 H11 N O5P 21 21 215.3386; 9.9878; 22.3493
90; 90; 90		1191.68Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566461 CIFC13 H11 N O5P 21 21 215.3386; 9.9878; 22.3493
90; 90; 90		1191.68Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566462 CIFC13 H11 N O5P 21 21 215.3386; 9.9878; 22.3493
90; 90; 90		1191.68Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566463 CIFC13 H11 N O5P 21 21 215.3386; 9.9878; 22.3493
90; 90; 90		1191.68Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566464 CIFC13 H11 N O5P 21 21 215.3386; 9.9878; 22.3493
90; 90; 90		1191.68Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566465 CIFC13 H11 N O5P 21 21 215.3386; 9.9878; 22.3493
90; 90; 90		1191.68Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566466 CIFC13 H11 N O5P 21 21 215.3386; 9.9878; 22.3493
90; 90; 90		1191.68Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566467 CIFC8 H18 Mg O14P 1 21/c 110.195; 11.759; 6.6206
90; 103.67; 90		771.2Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566468 CIFC8 H18 Mg O14P 1 21/c 110.195; 11.759; 6.6206
90; 103.67; 90		771.2Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566469 CIFC8 H18 Mg O14P 1 21/c 110.195; 11.759; 6.6206
90; 103.67; 90		771.2Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566470 CIFC8 H18 Mg O14P 1 21/c 110.195; 11.759; 6.6206
90; 103.67; 90		771.2Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566471 CIFC8 H18 Mg O14P 1 21/c 110.195; 11.759; 6.6206
90; 103.67; 90		771.2Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566472 CIFC8 H18 Mg O14P 1 21/c 110.195; 11.759; 6.6206
90; 103.67; 90		771.2Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566473 CIFC8 H18 Mg O14P 1 21/c 110.195; 11.759; 6.6206
90; 103.67; 90		771.2Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566474 CIFC8 H18 Mg O14P 1 21/c 110.195; 11.759; 6.6206
90; 103.67; 90		771.2Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566475 CIFC8 H18 Mg O14P 1 21/c 110.195; 11.759; 6.6206
90; 103.67; 90		771.2Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566476 CIFC8 H18 Mg O14P 1 21/c 110.195; 11.759; 6.6206
90; 103.67; 90		771.2Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566477 CIFC8 H18 Mg O14P 1 21/c 110.195; 11.759; 6.6206
90; 103.67; 90		771.2Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566478 CIFC8 H18 Mg O14P 1 21/c 110.195; 11.759; 6.6206
90; 103.67; 90		771.2Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566479 CIFC8 H18 Mg O14P 1 21/c 110.195; 11.759; 6.6206
90; 103.67; 90		771.2Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566480 CIFC8 H18 Mg O14P 1 21/c 110.195; 11.759; 6.6206
90; 103.67; 90		771.2Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566481 CIFC8 H18 Mg O14P 1 21/c 110.195; 11.759; 6.6206
90; 103.67; 90		771.2Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566482 CIFC8 H18 Mg O14P 1 21/c 110.195; 11.759; 6.6206
90; 103.67; 90		771.2Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566483 CIFC8 H18 Mg O14P 1 21/c 110.195; 11.759; 6.6206
90; 103.67; 90		771.2Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566484 CIFC5 H12 O5P 21 21 218.264; 8.901; 8.9223
90; 90; 90		656.3Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566485 CIFC5 H12 O5P 21 21 218.264; 8.901; 8.9223
90; 90; 90		656.3Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566486 CIFC5 H12 O5P 21 21 218.264; 8.901; 8.9223
90; 90; 90		656.3Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566487 CIFC5 H12 O5P 21 21 218.264; 8.901; 8.9223
90; 90; 90		656.3Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566488 CIFC5 H12 O5P 21 21 218.264; 8.901; 8.9223
90; 90; 90		656.3Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566489 CIFC5 H12 O5P 21 21 218.264; 8.901; 8.9223
90; 90; 90		656.3Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566490 CIFC5 H12 O5P 21 21 218.264; 8.901; 8.9223
90; 90; 90		656.3Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566491 CIFC5 H12 O5P 21 21 218.264; 8.901; 8.9223
90; 90; 90		656.3Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566492 CIFC5 H12 O5P 21 21 218.264; 8.901; 8.9223
90; 90; 90		656.3Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566493 CIFC5 H12 O5P 21 21 218.264; 8.901; 8.9223
90; 90; 90		656.3Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566494 CIFC5 H12 O5P 21 21 218.264; 8.901; 8.9223
90; 90; 90		656.3Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566495 CIFC5 H12 O5P 21 21 218.264; 8.901; 8.9223
90; 90; 90		656.3Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566496 CIFC5 H12 O5P 21 21 218.264; 8.901; 8.9223
90; 90; 90		656.3Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566497 CIFC5 H12 O5P 21 21 218.264; 8.901; 8.9223
90; 90; 90		656.3Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566498 CIFC5 H12 O5P 21 21 218.264; 8.901; 8.9223
90; 90; 90		656.3Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566499 CIFC5 H12 O5P 21 21 218.264; 8.901; 8.9223
90; 90; 90		656.3Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566500 CIFC5 H12 O5P 21 21 218.264; 8.901; 8.9223
90; 90; 90		656.3Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566501 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566502 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566503 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566504 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566505 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566506 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566507 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566508 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566509 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566510 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566511 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566512 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566513 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566514 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566515 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566516 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566517 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566518 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566519 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566520 CIFC H4 N2 OP -4 21 m5.578; 5.578; 4.686
90; 90; 90		145.8Ruth, Paul Niklas; Herbst-Irmer, Regine; Stalke, Dietmar
Hirshfeld atom refinement based on projector augmented wave densities with periodic boundary conditions
IUCrJ, 2022, 9, 286-297
1566581 CIF
Paper		C68.39 H67.65 Cl6 N12 O4 Zn3C 1 2/c 133.3132; 14.4948; 31.7714
90; 102.245; 90		14992.4Meurer, Florian; von Essen, Carolina; Kühn, Clemens; Puschmann, Horst; Bodensteiner, Michael
The benefits of Cu Kβ radiation for the single-crystal X-ray structure determination of crystalline sponges
IUCrJ, 2022, 9
1566582 CIFC68.62 H68.92 Cl6 N12 O4 Zn3C 1 2/c 133.306; 14.488; 31.8026
90; 102.247; 90		14996.7Meurer, Florian; von Essen, Carolina; Kühn, Clemens; Puschmann, Horst; Bodensteiner, Michael
The benefits of Cu Kβ radiation for the single-crystal X-ray structure determination of crystalline sponges
IUCrJ, 2022, 9
1566583 CIFC54.5 H43 I6 N12 O4 Zn3C 1 2/c 134.4866; 14.9746; 31.0009
90; 101.933; 90		15663.6Meurer, Florian; von Essen, Carolina; Kühn, Clemens; Puschmann, Horst; Bodensteiner, Michael
The benefits of Cu Kβ radiation for the single-crystal X-ray structure determination of crystalline sponges
IUCrJ, 2022, 9
1566584 CIFC55 H42 I6 N12 O4 Zn3C 1 2/c 134.4862; 15.0052; 31.125
90; 101.958; 90		15756.8Meurer, Florian; von Essen, Carolina; Kühn, Clemens; Puschmann, Horst; Bodensteiner, Michael
The benefits of Cu Kβ radiation for the single-crystal X-ray structure determination of crystalline sponges
IUCrJ, 2022, 9
1566585 CIFC63 H78 I6 N12 Zn3C 1 2/c 134.5713; 15.1587; 29.5198
90; 100.649; 90		15203.6Meurer, Florian; von Essen, Carolina; Kühn, Clemens; Puschmann, Horst; Bodensteiner, Michael
The benefits of Cu Kβ radiation for the single-crystal X-ray structure determination of crystalline sponges
IUCrJ, 2022, 9
1566586 CIFC64.69 H81.39 I6 N12 Zn3C 1 2/c 134.595; 15.1725; 29.535
90; 100.647; 90		15235.8Meurer, Florian; von Essen, Carolina; Kühn, Clemens; Puschmann, Horst; Bodensteiner, Michael
The benefits of Cu Kβ radiation for the single-crystal X-ray structure determination of crystalline sponges
IUCrJ, 2022, 9
1566971 CIFC20 H10 F2 N2 O2P 1 21/c 113.6961; 3.76836; 28.7891
90; 105.163; 90		1434.1Schlesinger, Carina; Fitterer, Arnd; Buchsbaum, Christian; Habermehl, Stefan; Chierotti, Michele R.; Nervi, Carlo; Schmidt, Martin U.
Ambiguous structure determination from powder data: four different structural models of 4,11-difluoroquinacridone with similar X-ray powder patterns, fit to the PDF, SSNMR and DFT-D
IUCrJ, 2022, 9
1566972 CIFC20 H10 F2 N2 O2P 1 21/c 114.2172; 3.76778; 13.7038
90; 102.504; 90		716.66Schlesinger, Carina; Fitterer, Arnd; Buchsbaum, Christian; Habermehl, Stefan; Chierotti, Michele R.; Nervi, Carlo; Schmidt, Martin U.
Ambiguous structure determination from powder data: four different structural models of 4,11-difluoroquinacridone with similar X-ray powder patterns, fit to the PDF, SSNMR and DFT-D
IUCrJ, 2022, 9
1566973 CIFC20 H10 F2 N2 O2P -13.8854; 7.0333; 14.1014
102.713; 86.084; 105.939		361.44Schlesinger, Carina; Fitterer, Arnd; Buchsbaum, Christian; Habermehl, Stefan; Chierotti, Michele R.; Nervi, Carlo; Schmidt, Martin U.
Ambiguous structure determination from powder data: four different structural models of 4,11-difluoroquinacridone with similar X-ray powder patterns, fit to the PDF, SSNMR and DFT-D
IUCrJ, 2022, 9
1566974 CIFC20 H10 F2 N2 O2P 1 21/c 114.3352; 3.77265; 27.374
90; 103.686; 90		1438.4Schlesinger, Carina; Fitterer, Arnd; Buchsbaum, Christian; Habermehl, Stefan; Chierotti, Michele R.; Nervi, Carlo; Schmidt, Martin U.
Ambiguous structure determination from powder data: four different structural models of 4,11-difluoroquinacridone with similar X-ray powder patterns, fit to the PDF, SSNMR and DFT-D
IUCrJ, 2022, 9
1566975 CIFC20 H10 F2 N2 O2P 1 21/c 114.166; 3.758; 13.762
90; 103.09; 90		713.6Schlesinger, Carina; Fitterer, Arnd; Buchsbaum, Christian; Habermehl, Stefan; Chierotti, Michele R.; Nervi, Carlo; Schmidt, Martin U.
Ambiguous structure determination from powder data: four different structural models of 4,11-difluoroquinacridone with similar X-ray powder patterns, fit to the PDF, SSNMR and DFT-D
IUCrJ, 2022, 9
1567020 CIFC18 H11 Br1.5 N5P -17.2378; 7.7475; 17.8746
83.578; 83.241; 67.104		914.53Molčanov, Krešimir; Milašinović, Valentina; Kojić-Prodić, Biserka; Maltar-Strmečki, Nadica; You, Jiangyang; Šantić, Ana; Kanižaj, Lidija; Stilinović, Vladimir; Fotović, Luka
Semiconductive 2D arrays of pancake-bonded oligomers of partially charged TCNQ radicals
IUCrJ, 2022, 9
1567021 CIFC31 H10 N9P 1 21/c 113.2712; 12.5807; 7.7388
90; 90.466; 90		1292.03Molčanov, Krešimir; Milašinović, Valentina; Kojić-Prodić, Biserka; Maltar-Strmečki, Nadica; You, Jiangyang; Šantić, Ana; Kanižaj, Lidija; Stilinović, Vladimir; Fotović, Luka
Semiconductive 2D arrays of pancake-bonded oligomers of partially charged TCNQ radicals
IUCrJ, 2022, 9
1567022 CIFC31 H10 N9P 1 21/c 113.3766; 12.8023; 7.7861
90; 90.396; 90		1333.35Molčanov, Krešimir; Milašinović, Valentina; Kojić-Prodić, Biserka; Maltar-Strmečki, Nadica; You, Jiangyang; Šantić, Ana; Kanižaj, Lidija; Stilinović, Vladimir; Fotović, Luka
Semiconductive 2D arrays of pancake-bonded oligomers of partially charged TCNQ radicals
IUCrJ, 2022, 9
1567023 CIFC30 H15 I N9P 17.168; 7.6291; 13.6797
78.422; 83.441; 69.68		686.44Molčanov, Krešimir; Milašinović, Valentina; Kojić-Prodić, Biserka; Maltar-Strmečki, Nadica; You, Jiangyang; Šantić, Ana; Kanižaj, Lidija; Stilinović, Vladimir; Fotović, Luka
Semiconductive 2D arrays of pancake-bonded oligomers of partially charged TCNQ radicals
IUCrJ, 2022, 9
1567024 CIFC31 H16 Br2 N9P -18.0361; 13.0398; 14.2071
92.624; 98.576; 104.767		1418Molčanov, Krešimir; Milašinović, Valentina; Kojić-Prodić, Biserka; Maltar-Strmečki, Nadica; You, Jiangyang; Šantić, Ana; Kanižaj, Lidija; Stilinović, Vladimir; Fotović, Luka
Semiconductive 2D arrays of pancake-bonded oligomers of partially charged TCNQ radicals
IUCrJ, 2022, 9
1567025 CIFC31 H17 N9P 1 21/c 113.0864; 25.3377; 7.8403
90; 92.651; 90		2596.9Molčanov, Krešimir; Milašinović, Valentina; Kojić-Prodić, Biserka; Maltar-Strmečki, Nadica; You, Jiangyang; Šantić, Ana; Kanižaj, Lidija; Stilinović, Vladimir; Fotović, Luka
Semiconductive 2D arrays of pancake-bonded oligomers of partially charged TCNQ radicals
IUCrJ, 2022, 9
1567026 CIFC48 H26 N14P -17.8212; 9.7542; 13.2653
78.103; 75.829; 82.246		956.32Molčanov, Krešimir; Milašinović, Valentina; Kojić-Prodić, Biserka; Maltar-Strmečki, Nadica; You, Jiangyang; Šantić, Ana; Kanižaj, Lidija; Stilinović, Vladimir; Fotović, Luka
Semiconductive 2D arrays of pancake-bonded oligomers of partially charged TCNQ radicals
IUCrJ, 2022, 9
1567027 CIFC36 H22 Br2 I N10P -17.5693; 13.03; 18.5239
105.159; 90.971; 98.382		1741.66Molčanov, Krešimir; Milašinović, Valentina; Kojić-Prodić, Biserka; Maltar-Strmečki, Nadica; You, Jiangyang; Šantić, Ana; Kanižaj, Lidija; Stilinović, Vladimir; Fotović, Luka
Semiconductive 2D arrays of pancake-bonded oligomers of partially charged TCNQ radicals
IUCrJ, 2022, 9
1567028 CIFC30 H14 Br2 N9P -16.6911; 7.8201; 27.6491
97.673; 90.168; 108.973		1354.23Molčanov, Krešimir; Milašinović, Valentina; Kojić-Prodić, Biserka; Maltar-Strmečki, Nadica; You, Jiangyang; Šantić, Ana; Kanižaj, Lidija; Stilinović, Vladimir; Fotović, Luka
Semiconductive 2D arrays of pancake-bonded oligomers of partially charged TCNQ radicals
IUCrJ, 2022, 9
1567029 CIFC30 H16 N9P -17.7274; 13.1422; 13.3145
99.902; 106.251; 97.225		1256.99Molčanov, Krešimir; Milašinović, Valentina; Kojić-Prodić, Biserka; Maltar-Strmečki, Nadica; You, Jiangyang; Šantić, Ana; Kanižaj, Lidija; Stilinović, Vladimir; Fotović, Luka
Semiconductive 2D arrays of pancake-bonded oligomers of partially charged TCNQ radicals
IUCrJ, 2022, 9
1567030 CIFC29 H8 N9P -17.2867; 7.7545; 13.1305
92.616; 103.414; 113.979		651.19Molčanov, Krešimir; Milašinović, Valentina; Kojić-Prodić, Biserka; Maltar-Strmečki, Nadica; You, Jiangyang; Šantić, Ana; Kanižaj, Lidija; Stilinović, Vladimir; Fotović, Luka
Semiconductive 2D arrays of pancake-bonded oligomers of partially charged TCNQ radicals
IUCrJ, 2022, 9
1567031 CIFC36 H16 N10P -17.1249; 7.6572; 14.4249
89.017; 83.589; 68.34		726.6Molčanov, Krešimir; Milašinović, Valentina; Kojić-Prodić, Biserka; Maltar-Strmečki, Nadica; You, Jiangyang; Šantić, Ana; Kanižaj, Lidija; Stilinović, Vladimir; Fotović, Luka
Semiconductive 2D arrays of pancake-bonded oligomers of partially charged TCNQ radicals
IUCrJ, 2022, 9
1567032 CIFC36 H16 N10P -17.2179; 7.6887; 14.5445
89.176; 82.57; 69.284		748.2Molčanov, Krešimir; Milašinović, Valentina; Kojić-Prodić, Biserka; Maltar-Strmečki, Nadica; You, Jiangyang; Šantić, Ana; Kanižaj, Lidija; Stilinović, Vladimir; Fotović, Luka
Semiconductive 2D arrays of pancake-bonded oligomers of partially charged TCNQ radicals
IUCrJ, 2022, 9
1567033 CIFC15 H9 N5P -17.0634; 7.8154; 13.468
73.628; 89.55; 67.258		653.56Molčanov, Krešimir; Milašinović, Valentina; Kojić-Prodić, Biserka; Maltar-Strmečki, Nadica; You, Jiangyang; Šantić, Ana; Kanižaj, Lidija; Stilinović, Vladimir; Fotović, Luka
Semiconductive 2D arrays of pancake-bonded oligomers of partially charged TCNQ radicals
IUCrJ, 2022, 9
1567034 CIFC15 H9 N5P -17.1924; 7.8489; 13.617
106.174; 90.739; 112.525		675.74Molčanov, Krešimir; Milašinović, Valentina; Kojić-Prodić, Biserka; Maltar-Strmečki, Nadica; You, Jiangyang; Šantić, Ana; Kanižaj, Lidija; Stilinović, Vladimir; Fotović, Luka
Semiconductive 2D arrays of pancake-bonded oligomers of partially charged TCNQ radicals
IUCrJ, 2022, 9
1567035 CIFC37 H20 N9 OP -19.1474; 11.3666; 15.9321
106.234; 91.277; 99.804		1562.98Molčanov, Krešimir; Milašinović, Valentina; Kojić-Prodić, Biserka; Maltar-Strmečki, Nadica; You, Jiangyang; Šantić, Ana; Kanižaj, Lidija; Stilinović, Vladimir; Fotović, Luka
Semiconductive 2D arrays of pancake-bonded oligomers of partially charged TCNQ radicals
IUCrJ, 2022, 9
1567036 CIFC16 H8 N5P -17.5381; 8.013; 13.3368
103.618; 90.811; 115.727		699.07Molčanov, Krešimir; Milašinović, Valentina; Kojić-Prodić, Biserka; Maltar-Strmečki, Nadica; You, Jiangyang; Šantić, Ana; Kanižaj, Lidija; Stilinović, Vladimir; Fotović, Luka
Semiconductive 2D arrays of pancake-bonded oligomers of partially charged TCNQ radicals
IUCrJ, 2022, 9
1567037 CIFC30 H15 I N9P 17.0735; 7.8171; 13.8419
74.353; 88.928; 67.934		680.1Molčanov, Krešimir; Milašinović, Valentina; Kojić-Prodić, Biserka; Maltar-Strmečki, Nadica; You, Jiangyang; Šantić, Ana; Kanižaj, Lidija; Stilinović, Vladimir; Fotović, Luka
Semiconductive 2D arrays of pancake-bonded oligomers of partially charged TCNQ radicals
IUCrJ, 2022, 9
1567090 CIFC12 H6 Ga O5P 42/n m c :221.57; 21.57; 6.7
90; 90; 90		3117.3Samperisi, Laura; Zou, Xiaodong; Huang, Zhehao
How to get maximum structure information from anisotropic displacement parameters obtained by three-dimensional electron diffraction: an experimental study on metal–organic frameworks
IUCrJ, 2022, 9
1567116 CIF
Paper		C25.5 H26 N2 O9 SP 41 21 212.9189; 12.9189; 29.4056
90; 90; 90		4907.74Jirát, Jan; Babor, Martin; Ridvan, Luděk; Skořepová, Eliška; Dušek, Michal; Šoóš, Miroslav
Structure–property relations of a unique and systematic dataset of 19 isostructural multicomponent apremilast forms
IUCrJ, 2022, 9
1567117 CIF
Paper		C51 H53 N4 O18 S2P 41 21 212.917; 12.917; 29.3859
90; 90; 90		4903Jirát, Jan; Babor, Martin; Ridvan, Luděk; Skořepová, Eliška; Dušek, Michal; Šoóš, Miroslav
Structure–property relations of a unique and systematic dataset of 19 isostructural multicomponent apremilast forms
IUCrJ, 2022, 9
1567118 CIF
Paper		C25.5 H25.5 N2 O8.5 SP 41 21 212.9076; 12.9076; 29.467
90; 90; 90		4909.38Jirát, Jan; Babor, Martin; Ridvan, Luděk; Skořepová, Eliška; Dušek, Michal; Šoóš, Miroslav
Structure–property relations of a unique and systematic dataset of 19 isostructural multicomponent apremilast forms
IUCrJ, 2022, 9
1567119 CIF
Paper		C25.5 H28 N2 O7.5 SP 41 21 212.8885; 12.8885; 29.5227
90; 90; 90		4904.12Jirát, Jan; Babor, Martin; Ridvan, Luděk; Skořepová, Eliška; Dušek, Michal; Šoóš, Miroslav
Structure–property relations of a unique and systematic dataset of 19 isostructural multicomponent apremilast forms
IUCrJ, 2022, 9
1567120 CIF
Paper		C25 H26.5 Br0.5 N2 O7 SP 41 21 212.8625; 12.8625; 29.5499
90; 90; 90		4888.85Jirát, Jan; Babor, Martin; Ridvan, Luděk; Skořepová, Eliška; Dušek, Michal; Šoóš, Miroslav
Structure–property relations of a unique and systematic dataset of 19 isostructural multicomponent apremilast forms
IUCrJ, 2022, 9
1567121 CIF
Paper		C33.33 H35.33 Cl0.67 N2.67 O9.33 S1.33P 41 21 212.8788; 12.8788; 29.3261
90; 90; 90		4864.13Jirát, Jan; Babor, Martin; Ridvan, Luděk; Skořepová, Eliška; Dušek, Michal; Šoóš, Miroslav
Structure–property relations of a unique and systematic dataset of 19 isostructural multicomponent apremilast forms
IUCrJ, 2022, 9
1567122 CIF
Paper		C50 H48 F6 N4 O14 S2P 41 21 212.8425; 12.8425; 29.4534
90; 90; 90		4857.74Jirát, Jan; Babor, Martin; Ridvan, Luděk; Skořepová, Eliška; Dušek, Michal; Šoóš, Miroslav
Structure–property relations of a unique and systematic dataset of 19 isostructural multicomponent apremilast forms
IUCrJ, 2022, 9
1567123 CIF
Paper		C50 H53 I N4 O14 S2P 41 21 212.9104; 12.9104; 29.4495
90; 90; 90		4908.6Jirát, Jan; Babor, Martin; Ridvan, Luděk; Skořepová, Eliška; Dušek, Michal; Šoóš, Miroslav
Structure–property relations of a unique and systematic dataset of 19 isostructural multicomponent apremilast forms
IUCrJ, 2022, 9
1567124 CIF
Paper		C53 H60 N4 O14 S2P 41 21 213.2792; 13.2792; 28.2737
90; 90; 90		4985.7Jirát, Jan; Babor, Martin; Ridvan, Luděk; Skořepová, Eliška; Dušek, Michal; Šoóš, Miroslav
Structure–property relations of a unique and systematic dataset of 19 isostructural multicomponent apremilast forms
IUCrJ, 2022, 9
1567125 CIF
Paper		C26 H29 N2 O7 SP 41 21 212.9696; 12.9696; 29.2499
90; 90; 90		4920.14Jirát, Jan; Babor, Martin; Ridvan, Luděk; Skořepová, Eliška; Dušek, Michal; Šoóš, Miroslav
Structure–property relations of a unique and systematic dataset of 19 isostructural multicomponent apremilast forms
IUCrJ, 2022, 9
1567126 CIF
Paper		C50 H52 N6 O15 S2P 41 21 212.8876; 12.8876; 29.4547
90; 90; 90		4892.14Jirát, Jan; Babor, Martin; Ridvan, Luděk; Skořepová, Eliška; Dušek, Michal; Šoóš, Miroslav
Structure–property relations of a unique and systematic dataset of 19 isostructural multicomponent apremilast forms
IUCrJ, 2022, 9
1567127 CIF
Paper		C50 H53 N5 O16 S2P 41 21 212.9268; 12.9268; 29.3204
90; 90; 90		4899.5Jirát, Jan; Babor, Martin; Ridvan, Luděk; Skořepová, Eliška; Dušek, Michal; Šoóš, Miroslav
Structure–property relations of a unique and systematic dataset of 19 isostructural multicomponent apremilast forms
IUCrJ, 2022, 9
1567128 CIF
Paper		C26 H30.5 N2 O7 SP 41 21 213.185; 13.185; 28.593
90; 90; 90		4970.73Jirát, Jan; Babor, Martin; Ridvan, Luděk; Skořepová, Eliška; Dušek, Michal; Šoóš, Miroslav
Structure–property relations of a unique and systematic dataset of 19 isostructural multicomponent apremilast forms
IUCrJ, 2022, 9
1567129 CIF
Paper		C51 H53 N4 O17 S2P 41 21 212.9133; 12.9133; 29.3418
90; 90; 90		4892.84Jirát, Jan; Babor, Martin; Ridvan, Luděk; Skořepová, Eliška; Dušek, Michal; Šoóš, Miroslav
Structure–property relations of a unique and systematic dataset of 19 isostructural multicomponent apremilast forms
IUCrJ, 2022, 9
1567130 CIF
Paper		C51 H54 F3 N4 O14 S2P 41 21 212.9492; 12.9492; 29.6806
90; 90; 90		4976.9Jirát, Jan; Babor, Martin; Ridvan, Luděk; Skořepová, Eliška; Dušek, Michal; Šoóš, Miroslav
Structure–property relations of a unique and systematic dataset of 19 isostructural multicomponent apremilast forms
IUCrJ, 2022, 9
1567346 CIFH2 OP 42/n m c :26.1732; 6.1732; 5.6881
90; 90; 90		216.76Chodkiewicz, Michal L.; Gajda, Roman; Lavina, Barbara; Tkachev, Sergey; Prakapenka, Vitali B.; Dera, Przemyslaw; Wozniak, Krzysztof
Accurate crystal structure of ice VI from X-ray diffraction with Hirshfeld atom refinement
IUCrJ, 2022, 9
1567347 CIFH2 OP 42/n m c :26.1732; 6.1732; 5.6881
90; 90; 90		216.76Chodkiewicz, Michal L.; Gajda, Roman; Lavina, Barbara; Tkachev, Sergey; Prakapenka, Vitali B.; Dera, Przemyslaw; Wozniak, Krzysztof
Accurate crystal structure of ice VI from X-ray diffraction with Hirshfeld atom refinement
IUCrJ, 2022, 9
1567348 CIFH2 OP 42/n m c :26.1732; 6.1732; 5.6881
90; 90; 90		216.76Chodkiewicz, Michal L.; Gajda, Roman; Lavina, Barbara; Tkachev, Sergey; Prakapenka, Vitali B.; Dera, Przemyslaw; Wozniak, Krzysztof
Accurate crystal structure of ice VI from X-ray diffraction with Hirshfeld atom refinement
IUCrJ, 2022, 9
1567349 CIFH2 OP 42/n m c :26.1711; 6.1711; 5.6747
90; 90; 90		216.11Chodkiewicz, Michal L.; Gajda, Roman; Lavina, Barbara; Tkachev, Sergey; Prakapenka, Vitali B.; Dera, Przemyslaw; Wozniak, Krzysztof
Accurate crystal structure of ice VI from X-ray diffraction with Hirshfeld atom refinement
IUCrJ, 2022, 9
1567350 CIFH2 OP 42/n m c :26.1711; 6.1711; 5.6747
90; 90; 90		216.11Chodkiewicz, Michal L.; Gajda, Roman; Lavina, Barbara; Tkachev, Sergey; Prakapenka, Vitali B.; Dera, Przemyslaw; Wozniak, Krzysztof
Accurate crystal structure of ice VI from X-ray diffraction with Hirshfeld atom refinement
IUCrJ, 2022, 9
1567351 CIFH2 OP 42/n m c :26.1918; 6.1918; 5.7067
90; 90; 90		218.79Chodkiewicz, Michal L.; Gajda, Roman; Lavina, Barbara; Tkachev, Sergey; Prakapenka, Vitali B.; Dera, Przemyslaw; Wozniak, Krzysztof
Accurate crystal structure of ice VI from X-ray diffraction with Hirshfeld atom refinement
IUCrJ, 2022, 9
1567352 CIFH2 OP 42/n m c :26.1918; 6.1918; 5.7067
90; 90; 90		218.79Chodkiewicz, Michal L.; Gajda, Roman; Lavina, Barbara; Tkachev, Sergey; Prakapenka, Vitali B.; Dera, Przemyslaw; Wozniak, Krzysztof
Accurate crystal structure of ice VI from X-ray diffraction with Hirshfeld atom refinement
IUCrJ, 2022, 9
1567353 CIFH2 OP 42/n m c :26.1737; 6.1737; 5.6843
90; 90; 90		216.65Chodkiewicz, Michal L.; Gajda, Roman; Lavina, Barbara; Tkachev, Sergey; Prakapenka, Vitali B.; Dera, Przemyslaw; Wozniak, Krzysztof
Accurate crystal structure of ice VI from X-ray diffraction with Hirshfeld atom refinement
IUCrJ, 2022, 9
1567354 CIFH2 OP 42/n m c :26.1737; 6.1737; 5.6843
90; 90; 90		216.65Chodkiewicz, Michal L.; Gajda, Roman; Lavina, Barbara; Tkachev, Sergey; Prakapenka, Vitali B.; Dera, Przemyslaw; Wozniak, Krzysztof
Accurate crystal structure of ice VI from X-ray diffraction with Hirshfeld atom refinement
IUCrJ, 2022, 9
1567355 CIFH2 OP 42/n m c :26.1665; 6.1665; 5.6756
90; 90; 90		215.82Chodkiewicz, Michal L.; Gajda, Roman; Lavina, Barbara; Tkachev, Sergey; Prakapenka, Vitali B.; Dera, Przemyslaw; Wozniak, Krzysztof
Accurate crystal structure of ice VI from X-ray diffraction with Hirshfeld atom refinement
IUCrJ, 2022, 9
1567356 CIFH2 OP 42/n m c :26.1665; 6.1665; 5.6756
90; 90; 90		215.82Chodkiewicz, Michal L.; Gajda, Roman; Lavina, Barbara; Tkachev, Sergey; Prakapenka, Vitali B.; Dera, Przemyslaw; Wozniak, Krzysztof
Accurate crystal structure of ice VI from X-ray diffraction with Hirshfeld atom refinement
IUCrJ, 2022, 9
1567357 CIF
Paper		C6 Mo O6P n m a11.74147; 11.22116; 6.35094
90; 90; 90		836.755Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567358 CIF
Paper		C6 Mo O6P n m a11.74147; 11.22116; 6.35094
90; 90; 90		836.755Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567359 CIF
Paper		C6 Mo O6P n m a11.74147; 11.22116; 6.35094
90; 90; 90		836.755Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567360 CIF
Paper		C6 Mo O6P n m a11.78656; 11.2619; 6.3733
90; 90; 90		845.986Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567361 CIF
Paper		C6 Mo O6P n m a11.78656; 11.2619; 6.3733
90; 90; 90		845.986Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567362 CIF
Paper		C6 Mo O6P n m a11.78656; 11.2619; 6.3733
90; 90; 90		845.986Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567363 CIF
Paper		C6 Mo O6P n m a11.7976; 11.2734; 6.3799
90; 90; 90		848.52Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567364 CIF
Paper		C6 Mo O6P n m a11.7976; 11.2734; 6.3799
90; 90; 90		848.52Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567365 CIF
Paper		C6 Mo O6P n m a11.7976; 11.2734; 6.3799
90; 90; 90		848.52Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567366 CIF
Paper		C6 Mo O6P n m a11.80112; 11.27663; 6.38185
90; 90; 90		849.277Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567367 CIF
Paper		C6 Mo O6P n m a11.80112; 11.27663; 6.38185
90; 90; 90		849.277Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567368 CIF
Paper		C6 Mo O6P n m a11.80112; 11.27663; 6.38185
90; 90; 90		849.277Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567369 CIF
Paper		C6 Mo O6P n m a11.80973; 11.28599; 6.38709
90; 90; 90		851.3Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567370 CIF
Paper		C6 Mo O6P n m a11.80973; 11.28599; 6.38709
90; 90; 90		851.3Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567371 CIF
Paper		C6 Mo O6P n m a11.80973; 11.28599; 6.38709
90; 90; 90		851.3Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567372 CIF
Paper		C6 Mo O6P n m a11.82125; 11.2974; 6.39402
90; 90; 90		853.917Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567373 CIF
Paper		C6 Mo O6P n m a11.82125; 11.2974; 6.39402
90; 90; 90		853.917Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567374 CIF
Paper		C6 Mo O6P n m a11.82125; 11.2974; 6.39402
90; 90; 90		853.917Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567375 CIF
Paper		C6 Mo O6P n m a11.8622; 11.33684; 6.41647
90; 90; 90		862.886Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567376 CIF
Paper		C6 Mo O6P n m a11.8622; 11.33684; 6.41647
90; 90; 90		862.886Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1567377 CIF
Paper		C6 Mo O6P n m a11.8622; 11.33684; 6.41647
90; 90; 90		862.886Meurer, Florian; Dolomanov, Oleg V.; Hennig, Christoph; Peyerimhoff, Norbert; Kleemiss, Florian; Puschmann, Horst; Bodensteiner, Michael
Refinement of anomalous dispersion correction parameters in single-crystal structure determinations
IUCrJ, 2022, 9
1568793 CIFC522 H496 N72 Ni52 O264F d -3 :257.933; 57.933; 57.933
90; 90; 90		194437Nguyen, Thanh Nhan; Nguyen, Anh Ngoc; Tran, Ngoc Minh; Park, In Hyeok; Yoo, Hyojong
Hierarchical packing of racemic metallosupramolecular cages with Ni(II)-based triple-stranded helicate building blocks.
IUCrJ, 2023, 10
1568794 CIFC540 H544 N60 Ni52 O264F d -3 :258.6; 58.6; 58.6
90; 90; 90		201230Nguyen, Thanh Nhan; Nguyen, Anh Ngoc; Tran, Ngoc Minh; Park, In Hyeok; Yoo, Hyojong
Hierarchical packing of racemic metallosupramolecular cages with Ni(II)-based triple-stranded helicate building blocks.
IUCrJ, 2023, 10
1568795 CIFC504 H442 Br18 N72 Ni52 O264F d -3 :258.069; 58.069; 58.069
90; 90; 90		195809Nguyen, Thanh Nhan; Nguyen, Anh Ngoc; Tran, Ngoc Minh; Park, In Hyeok; Yoo, Hyojong
Hierarchical packing of racemic metallosupramolecular cages with Ni(II)-based triple-stranded helicate building blocks.
IUCrJ, 2023, 10
1568796 CIFC522 H496 Co52 N72 O264F d -3 :258.38; 58.38; 58.38
90; 90; 90		198972Nguyen, Thanh Nhan; Nguyen, Anh Ngoc; Tran, Ngoc Minh; Park, In Hyeok; Yoo, Hyojong
Hierarchical packing of racemic metallosupramolecular cages with Ni(II)-based triple-stranded helicate building blocks.
IUCrJ, 2023, 10
1568921 CIF
Paper		C32 H31 K O14P 1 2/n 111.2185; 10.2204; 13.5244
90; 106.427; 90		1487.38Jin, Shasha; Haskins, Molly M.; Deng, Cheng Hua; Matos, Catiúcia R M O; Zaworotko, Michael J.
Crystal engineering of ionic cocrystals comprising Na/K salts of hesperetin with hesperetin molecules and solubility modulation.
IUCrJ, 2023, 10
1568922 CIFC34 H33 K O13C 1 2/c 119.4072; 20.4384; 17.3645
90; 104.006; 90		6682.9Jin, Shasha; Haskins, Molly M.; Deng, Cheng Hua; Matos, Catiúcia R M O; Zaworotko, Michael J.
Crystal engineering of ionic cocrystals comprising Na/K salts of hesperetin with hesperetin molecules and solubility modulation.
IUCrJ, 2023, 10
1568923 CIFC33 H31 K O13C 1 2/c 119.6211; 20.3628; 17.2684
90; 104.282; 90		6686.19Jin, Shasha; Haskins, Molly M.; Deng, Cheng Hua; Matos, Catiúcia R M O; Zaworotko, Michael J.
Crystal engineering of ionic cocrystals comprising Na/K salts of hesperetin with hesperetin molecules and solubility modulation.
IUCrJ, 2023, 10
1568924 CIFC16 H19 K O9P b c a13.9343; 7.8657; 31.4425
90; 90; 90		3446.19Jin, Shasha; Haskins, Molly M.; Deng, Cheng Hua; Matos, Catiúcia R M O; Zaworotko, Michael J.
Crystal engineering of ionic cocrystals comprising Na/K salts of hesperetin with hesperetin molecules and solubility modulation.
IUCrJ, 2023, 10
1568925 CIFC16 H13.5 Na0.5 O6P 1 2/n 110.7741; 9.6357; 13.8452
90; 107.103; 90		1373.79Jin, Shasha; Haskins, Molly M.; Deng, Cheng Hua; Matos, Catiúcia R M O; Zaworotko, Michael J.
Crystal engineering of ionic cocrystals comprising Na/K salts of hesperetin with hesperetin molecules and solubility modulation.
IUCrJ, 2023, 10
1568926 CIFC36 H39 Na O14P -110.8865; 10.9884; 16.1451
81.871; 74.681; 68.049		1725.73Jin, Shasha; Haskins, Molly M.; Deng, Cheng Hua; Matos, Catiúcia R M O; Zaworotko, Michael J.
Crystal engineering of ionic cocrystals comprising Na/K salts of hesperetin with hesperetin molecules and solubility modulation.
IUCrJ, 2023, 10
1568927 CIFC16 H15 Na O7P 1 21/c 111.0666; 13.2714; 10.0412
90; 94.43; 90		1470.34Jin, Shasha; Haskins, Molly M.; Deng, Cheng Hua; Matos, Catiúcia R M O; Zaworotko, Michael J.
Crystal engineering of ionic cocrystals comprising Na/K salts of hesperetin with hesperetin molecules and solubility modulation.
IUCrJ, 2023, 10
1569195 CIF
Paper		Al7.44 Ca2.62 K2.63 Mg0.6 Na0.13 O100.8 Si28.56P 63/m m c13.2708; 13.2708; 15.0958
90; 90; 120		2302.4Giacobbe, Carlotta; Moliterni, Anna; Di Giuseppe, Dario; Malferrari, Daniele; Wright, Jonathan P.; Mattioli, Michele; Ranieri, Simona; Giannini, Cinzia; Fornasini, Laura; Mugnaioli, Enrico; Ballirano, Paolo; Gualtieri, Alessandro F.
The crystal structure of the killer fibre erionite from Tuzköy (Cappadocia, Turkey).
IUCrJ, 2023
1569410 CIF
Paper		C12 H12 N10 O7P 1 2/c 18.0781; 4.793; 18.345
90; 90.223; 90		710.28Bravetti, Federica; Tapmeyer, Lukas; Skorodumov, Kathrin; Alig, Edith; Habermehl, Stefan; Hühn, Robert; Bordignon, Simone; Gallo, Angelo; Nervi, Carlo; Chierotti, Michele R.; Schmidt, Martin U.
Leucopterin, the white pigment in butterfly wings: structural analysis by PDF fit, FIDEL fit, Rietveld refinement, solid-state NMR and DFT-D.
IUCrJ, 2023, 10, 448-463
1569411 CIF
Paper		C6 H5.34 N5 O3.17P 1 2/c 18.10257; 4.83656; 17.8289
90; 88.531; 90		698.46Bravetti, Federica; Tapmeyer, Lukas; Skorodumov, Kathrin; Alig, Edith; Habermehl, Stefan; Hühn, Robert; Bordignon, Simone; Gallo, Angelo; Nervi, Carlo; Chierotti, Michele R.; Schmidt, Martin U.
Leucopterin, the white pigment in butterfly wings: structural analysis by PDF fit, FIDEL fit, Rietveld refinement, solid-state NMR and DFT-D.
IUCrJ, 2023, 10, 448-463
1569412 CIF
Paper		C53.14 H44.05 I6 N12 O1.01 Zn3C 1 2/c 135.5224; 14.9127; 30.922
90; 102.4; 90		15998.3Carroll, Robert C.; Harrowven, David C.; Pearce, James E.; Coles, Simon J.
A systematic study of the interplay between guest molecule structure and intermolecular interactions in crystalline sponges
IUCrJ, 2023, 10, 497-508
1569413 CIFC55.92 H45.25 I6 N12 O1.33 Zn3C 1 2/c 135.6703; 14.9029; 30.5678
90; 102.121; 90		15887.3Carroll, Robert C.; Harrowven, David C.; Pearce, James E.; Coles, Simon J.
A systematic study of the interplay between guest molecule structure and intermolecular interactions in crystalline sponges
IUCrJ, 2023, 10, 497-508
1569414 CIFC53.17 H48.75 I6.01 N12 O0.62 Zn3.01P -114.8189; 19.1026; 31.814
101.557; 92.34; 110.826		8184.8Carroll, Robert C.; Harrowven, David C.; Pearce, James E.; Coles, Simon J.
A systematic study of the interplay between guest molecule structure and intermolecular interactions in crystalline sponges
IUCrJ, 2023, 10, 497-508
1569415 CIFC45.94 H34.64 I6 N12.54 O0.54 Zn3C 1 2/c 135.62; 14.9567; 30.9945
90; 102.899; 90		16095.9Carroll, Robert C.; Harrowven, David C.; Pearce, James E.; Coles, Simon J.
A systematic study of the interplay between guest molecule structure and intermolecular interactions in crystalline sponges
IUCrJ, 2023, 10, 497-508
1569416 CIFC45.57 H34.77 I6 N12 O1.2 Zn3C 1 2/c 135.3379; 14.8649; 31.6259
90; 102.979; 90		16188.5Carroll, Robert C.; Harrowven, David C.; Pearce, James E.; Coles, Simon J.
A systematic study of the interplay between guest molecule structure and intermolecular interactions in crystalline sponges
IUCrJ, 2023, 10, 497-508
1569417 CIFC50.67 H46.7 I6 N12 O1.42 Zn3P 1 2/n 131.5077; 14.9991; 34.4289
90; 102.086; 90		15910Carroll, Robert C.; Harrowven, David C.; Pearce, James E.; Coles, Simon J.
A systematic study of the interplay between guest molecule structure and intermolecular interactions in crystalline sponges
IUCrJ, 2023, 10, 497-508
1569418 CIFC54.39 H49.06 I6 N12 O3.35 Zn3C 1 2/c 134.533; 15.0103; 30.9081
90; 101.4; 90		15705.2Carroll, Robert C.; Harrowven, David C.; Pearce, James E.; Coles, Simon J.
A systematic study of the interplay between guest molecule structure and intermolecular interactions in crystalline sponges
IUCrJ, 2023, 10, 497-508
1569419 CIFC56.93 H43.09 I6.02 N12 O1.61 Zn3.01C 1 2/c 135.4079; 14.9066; 31.8633
90; 103.664; 90		16341.8Carroll, Robert C.; Harrowven, David C.; Pearce, James E.; Coles, Simon J.
A systematic study of the interplay between guest molecule structure and intermolecular interactions in crystalline sponges
IUCrJ, 2023, 10, 497-508
1569420 CIFC44.23 H30.91 F0.63 I6 N12 O0.63 Zn3C 1 2/c 135.6889; 14.8458; 31.8064
90; 103.685; 90		16373.6Carroll, Robert C.; Harrowven, David C.; Pearce, James E.; Coles, Simon J.
A systematic study of the interplay between guest molecule structure and intermolecular interactions in crystalline sponges
IUCrJ, 2023, 10, 497-508
1569421 CIFC48.16 H34.29 F0.94 I6 N12 O0.94 Zn3C 1 2/c 135.7099; 14.85945; 31.593
90; 103.011; 90		16333.8Carroll, Robert C.; Harrowven, David C.; Pearce, James E.; Coles, Simon J.
A systematic study of the interplay between guest molecule structure and intermolecular interactions in crystalline sponges
IUCrJ, 2023, 10, 497-508
1569422 CIFC22.86 H16.22 I3.75 N6 O0.37 Zn1.5P -114.778; 18.2345; 30.797
98.227; 91.736; 113.055		7523.4Carroll, Robert C.; Harrowven, David C.; Pearce, James E.; Coles, Simon J.
A systematic study of the interplay between guest molecule structure and intermolecular interactions in crystalline sponges
IUCrJ, 2023, 10, 497-508
1569423 CIFC49.98 H38.21 I6 N12 O Zn3C 1 2/c 135.5509; 14.9182; 30.8851
90; 102.449; 90		15995Carroll, Robert C.; Harrowven, David C.; Pearce, James E.; Coles, Simon J.
A systematic study of the interplay between guest molecule structure and intermolecular interactions in crystalline sponges
IUCrJ, 2023, 10, 497-508
1569424 CIFC48.24 H36.74 I6 N12 O0.53 Zn3C 1 2/c 134.9529; 14.9266; 30.7318
90; 101.777; 90		15696.1Carroll, Robert C.; Harrowven, David C.; Pearce, James E.; Coles, Simon J.
A systematic study of the interplay between guest molecule structure and intermolecular interactions in crystalline sponges
IUCrJ, 2023, 10, 497-508
1569763 CIF
Paper		C9 H14 N2 O4P 1 21/n 17.884; 7.2121; 16.7362
90; 94.4437; 90		948.76Saifina, Alina F.; Kartashov, Sergey V.; Saifina, Liliya F.; Fayzullin, Robert R.
Applicability of transferable multipole pseudo-atoms for restoring inner-crystal electronic force density fields. Chemical bonding and binding features in the crystal and dimer of 1,3-bis(2-hydroxyethyl)-6-methyluracil
IUCrJ, 2023, 10, 584-602
1569894 CIF
Paper		C14 H16 N2 O10 ZnP 1 21/c 19.4322; 11.3669; 16.0822
90; 106; 90		1657.46Guan, Lei; Wang, Ying; Jin, Hongzhe; Yin, Pengpeng
A new route for the syntheses of coordination polymers using magnetic influence: syntheses, crystal structures and fluorescence properties.
IUCrJ, 2023, 10
1569895 CIFC14 H16 Co N2 O10P 43 21 210.2539; 10.2539; 30.4058
90; 90; 90		3196.9Guan, Lei; Wang, Ying; Jin, Hongzhe; Yin, Pengpeng
A new route for the syntheses of coordination polymers using magnetic influence: syntheses, crystal structures and fluorescence properties.
IUCrJ, 2023, 10
1569896 CIFC24 H18 N4 O7 ZnP -18.5332; 9.6081; 14.1363
95.32; 97.103; 104.473		1104.36Guan, Lei; Wang, Ying; Jin, Hongzhe; Yin, Pengpeng
A new route for the syntheses of coordination polymers using magnetic influence: syntheses, crystal structures and fluorescence properties.
IUCrJ, 2023, 10
1569897 CIFC24 H20 Co N4 O8P -17.7901; 10.0895; 15.5233
94.751; 101.411; 107.809		1125.17Guan, Lei; Wang, Ying; Jin, Hongzhe; Yin, Pengpeng
A new route for the syntheses of coordination polymers using magnetic influence: syntheses, crystal structures and fluorescence properties.
IUCrJ, 2023, 10
1569898 CIFC24 H18 Cu N4 O7P 1 21/n 17.2074; 16.8579; 18.3599
90; 100.371; 90		2194.31Guan, Lei; Wang, Ying; Jin, Hongzhe; Yin, Pengpeng
A new route for the syntheses of coordination polymers using magnetic influence: syntheses, crystal structures and fluorescence properties.
IUCrJ, 2023, 10
1569899 CIFC24 H18 N4 O6C 1 2/c 112.02; 11.953; 14.174
90; 103.163; 90		1982.9Guan, Lei; Wang, Ying; Jin, Hongzhe; Yin, Pengpeng
A new route for the syntheses of coordination polymers using magnetic influence: syntheses, crystal structures and fluorescence properties.
IUCrJ, 2023, 10
1569900 CIFC50 H48 N8 O14 ZnP 1 2/c 114.1895; 14.8309; 22.402
90; 92.676; 90		4709.2Guan, Lei; Wang, Ying; Jin, Hongzhe; Yin, Pengpeng
A new route for the syntheses of coordination polymers using magnetic influence: syntheses, crystal structures and fluorescence properties.
IUCrJ, 2023, 10
1569988 CIF
Paper		C34 H26 N2 S2P -19.4895; 11.6539; 13.4967
114.125; 100.242; 91.853		1331.33Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1569989 CIFC34 H26 N2 S2I 1 2/a 19.8916; 25.9653; 10.937
90; 109.525; 90		2647.5Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1569990 CIFC84 H64 N4 O12 S4P 1 2/n 117.1862; 12.2494; 18.3174
90; 113.273; 90		3542.4Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1569991 CIFC185 H145 N8 O28 S8P -110.602; 16.714; 24.181
71.454; 88.132; 78.607		3980.2Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1569992 CIFC49 H35 N2 O12 S2P 1 21/c 19.6987; 20.7245; 22.9341
90; 101.68; 90		4514.32Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1569993 CIFC42 H32 N2 O4 S2P n a 2130.6739; 9.6686; 24.285
90; 90; 90		7202.3Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1569994 CIFC68 H56 Co N4 O2 S4F d d d :29.8404; 21.4458; 67.537
90; 90; 90		14252.7Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1569995 CIFC68 H56 N4 Ni O2 S4F d d d :29.8621; 21.6164; 67.069
90; 90; 90		14298Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1569996 CIFC68 H56 N6 O8 S4 ZnF d d d :29.8296; 21.4844; 67.4
90; 90; 90		14233.7Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1569997 CIF
Paper		C68 H56 Cd N6 O8 S4F d d d :29.8116; 21.432; 69.162
90; 90; 90		14544Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1569998 CIF
Paper		C35 H28 Cl2 Cu I N2 S2P -19.496; 10.032; 17.38
86.772; 84.163; 83.443		1634.7Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1569999 CIF
Paper		C74 H66 Br2 Cu N6 O2 S4P -19.5108; 11.4444; 16.0164
105.012; 98.452; 99.178		1629.52Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1570000 CIF
Paper		C42 H33 N3 O8 S2 ZnP -110.1753; 10.952; 18.411
89.839; 82.711; 69.145		1899.8Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1570001 CIF
Paper		C82 H60 N4 O5 S4 ZnP -114.2712; 14.7916; 19.2839
98.124; 104.4; 117.968		3320.3Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1570002 CIF
Paper		C90 H93 N7 O17 S4 Zn2P -111.873; 17.012; 22.921
78.006; 76.999; 83.799		4403.4Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1570003 CIF
Paper		C46 H39 N3 O8 S2 ZnP -110.1309; 11.6998; 19.7642
76.491; 78.625; 67.929		2095.27Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1570004 CIF
Paper		C46 H37 N3 O7 S2 ZnP -110.262; 11.2119; 18.905
87.543; 82.666; 66.797		1982.8Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1570005 CIF
Paper		C48 H38 N2 O6 S2 ZnP 64 2 215.4656; 15.4656; 45.0635
90; 90; 120		9334.5Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1570006 CIF
Paper		C76 H56 N4 O4 S4 Zn2I 1 2/a 120.2935; 16.6798; 25.1409
90; 109.835; 90		8005.1Mitchell, Travis B.; Zhang, Xiaotong; Jerozal, Ronald T.; Chen, Yu Sheng; Wang, SuYin; Benedict, Jason B.
Development of a scalar-based geometric parameterization approach for the crystal structure landscape of dithienylethene-based crystalline solids.
IUCrJ, 2023, 10
1570096 CIF
Paper		C34 H20 F18 N4P 1 21/n 112.6847; 5.8648; 23.2236
90; 93.284; 90		1724.84Bear, Joseph Charles; Terzoudis, Nikitas; Cockcroft, Jeremy Karl
Single-crystal quality data from polycrystalline samples: finding the needle in the haystack.
IUCrJ, 2023, 10
1570097 CIFC11 H5 F6 NP 21 21 215.8577; 10.4534; 17.3482
90; 90; 90		1062.28Bear, Joseph Charles; Terzoudis, Nikitas; Cockcroft, Jeremy Karl
Single-crystal quality data from polycrystalline samples: finding the needle in the haystack.
IUCrJ, 2023, 10
1570098 CIFC14 H11 F5P -16.3499; 7.2178; 7.3804
108.087; 93.949; 98.796		315.32Bear, Joseph Charles; Terzoudis, Nikitas; Cockcroft, Jeremy Karl
Single-crystal quality data from polycrystalline samples: finding the needle in the haystack.
IUCrJ, 2023, 10
1570099 CIFC14 H11 F5I -110.2296; 8.7819; 14.6776
106.811; 80.111; 97.168		1239.51Bear, Joseph Charles; Terzoudis, Nikitas; Cockcroft, Jeremy Karl
Single-crystal quality data from polycrystalline samples: finding the needle in the haystack.
IUCrJ, 2023, 10
1570230 CIF
Paper		P4P 21 21 2118.302; 18.302; 36.441
90; 90; 90		12206Herbst-Irmer, Regine; Wang, Xiaobai; Haberstock, Laura; Köhne, Ingo; Oswald, Rainer; Behler, Jörg; Stalke, Dietmar
A new polymorph of white phosphorus at ambient conditions
IUCrJ, 2023, 10, 766-771
1570231 CIF
Paper		P4P 21 21 2118.298; 18.298; 36.408
90; 90; 90		12190Herbst-Irmer, Regine; Wang, Xiaobai; Haberstock, Laura; Köhne, Ingo; Oswald, Rainer; Behler, Jörg; Stalke, Dietmar
A new polymorph of white phosphorus at ambient conditions
IUCrJ, 2023, 10, 766-771
1570302 CIF
Paper		C27 H33 F N4 O4P 1 21/c 123.295; 10.179; 10.6479
90; 97.284; 90		2504.5Chen, An; Cai, Peishan; Peng, Yayun; Guo, Minshan; Su, Yuan; Cai, Ting
The role of alkyl chain length in the melt and solution crystallization of paliperidone aliphatic prodrugs.
IUCrJ, 2024, 11, 23-33
1570303 CIFC31 H41 F N4 O4P 1 21/c 126.953; 10.08; 10.753
90; 92.658; 90		2918Chen, An; Cai, Peishan; Peng, Yayun; Guo, Minshan; Su, Yuan; Cai, Ting
The role of alkyl chain length in the melt and solution crystallization of paliperidone aliphatic prodrugs.
IUCrJ, 2024, 11, 23-33
1570304 CIFC35 H49 F N4 O4P 1 21/c 131.029; 9.9381; 10.8384
90; 99.374; 90		3297.6Chen, An; Cai, Peishan; Peng, Yayun; Guo, Minshan; Su, Yuan; Cai, Ting
The role of alkyl chain length in the melt and solution crystallization of paliperidone aliphatic prodrugs.
IUCrJ, 2024, 11, 23-33
1570305 CIFC39 H57 F N4 O4P 1 21/c 134.188; 9.828; 10.8068
90; 92.992; 90		3626.1Chen, An; Cai, Peishan; Peng, Yayun; Guo, Minshan; Su, Yuan; Cai, Ting
The role of alkyl chain length in the melt and solution crystallization of paliperidone aliphatic prodrugs.
IUCrJ, 2024, 11, 23-33
1570433 CIFC2 H6 OP 1 21/c 15.5541; 6.6179; 6.964
90; 103.835; 90		248.55Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570434 CIFC2 H6 OP 1 21/c 15.5277; 6.527; 6.8941
90; 103.869; 90		241.5Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570435 CIFC2 H6 OP 1 21/c 15.5073; 6.493; 6.8431
90; 103.848; 90		237.59Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570436 CIFC2 H6 OP -14.3394; 8.414; 12.821
90.55; 93.89; 90.83		467Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570437 CIFC2 H6 OP -14.2888; 8.3045; 12.7912
90.249; 93.92; 90.14		454.5Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570438 CIFC2 H6 OP -14.25; 8.198; 12.6105
90.641; 93.97; 90.04		438.3Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570439 CIFC4 H10 OP 1 21/c 16.8268; 8.1428; 7.7731
90; 93.443; 90		431.32Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570440 CIFC4 H10 OP 1 21/c 16.7948; 8.0952; 7.7259
90; 93.621; 90		424.12Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570441 CIFC4 H10 OP 1 21/c 16.7759; 8.0552; 7.6873
90; 93.713; 90		418.7Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570442 CIFC4 H10 OP 1 21/c 16.7612; 8.0271; 7.6687
90; 93.784; 90		415.29Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570443 CIFC4 H10 OI 1 2/a 17.7073; 4.0885; 13.233
90; 93.793; 90		416.08Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570444 CIFC4 H10 OP -15.1196; 5.6659; 7.2999
97.275; 102.728; 96.747		202.56Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570445 CIFC4 H10 OP -15.0809; 5.6329; 7.2451
97.382; 102.749; 97.002		198.13Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570446 CIFC4 H10 OP -15.072; 5.629; 7.215
97.43; 102.91; 97.15		196.6Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570447 CIFC4 H10 OP -15.0182; 5.575; 7.136
97.36; 102.81; 97.72		190.31Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570448 CIFC6 H14 OP 1 21/c 19.416; 4.1817; 15.579
90; 101.23; 90		601.7Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570449 CIFC6 H14 OP 1 21/c 19.368; 4.1229; 15.434
90; 100.84; 90		585.5Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570450 CIFC6 H14 OP 1 21/c 19.293; 4.0686; 15.1855
90; 100.35; 90		564.8Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570451 CIFC6 H14 OP 1 21/c 19.198; 4.0064; 14.9459
90; 99.54; 90		543.2Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61
1570452 CIFC6 H14 OP 1 21/c 19.099; 3.9465; 14.649
90; 98.32; 90		520.5Sacharczuk, Natalia; Olejniczak, Anna; Bujak, Maciej; Dziubek, Kamil Filip; Katrusiak, Andrzej; Podsiadło, Marcin
Conformation-aggregation interplay in the simplest aliphatic ethers probed under high pressure.
IUCrJ, 2024, 11, 57-61

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