Crystallography Open Database

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1507928 CIFC44 H35 Cl Fe Ir N O4 P2P n a 2117.8247; 11.4245; 35.8766
90; 90; 90
7305.8Moran, Joseph; Preetz, Angelika; Mesch, Ryan A.; Krische, Michael J.
Iridium-catalysed direct C-C coupling of methanol and allenes.
Nature chemistry, 2011, 3, 287-290
1507929 CIFC33 H26 Cl2 O6 S2C 1 c 114.755; 14.831; 7.1877
90; 95.469; 90
1565.7Seyedsayamdost, Mohammad R.; Case, Rebecca J.; Kolter, Roberto; Clardy, Jon
The Jekyll-and-Hyde chemistry of Phaeobacter gallaeciensis.
Nature chemistry, 2011, 3, 331-335
1507930 CIFC60 H68 Cu6 O52P -3 m 118.65; 18.65; 6.8329
90; 90; 120
2058.2Mohideen, M Infas H; Xiao, Bo; Wheatley, Paul S.; McKinlay, Alistair C.; Li, Yang; Slawin, Alexandra M. Z.; Aldous, David W.; Cessford, Naomi F.; Düren, Tina; Zhao, Xuebo; Gill, Rachel; Thomas, K. Mark; Griffin, John M.; Ashbrook, Sharon E.; Morris, Russell E.
Protecting group and switchable pore-discriminating adsorption properties of a hydrophilic-hydrophobic metal-organic framework.
Nature chemistry, 2011, 3, 304-310
1507931 CIFC69 H86 Cl6 N4 P4 Si4 U2P -112.3462; 13.0526; 13.5703
106.254; 101.926; 105.292
1930Mills, David P.; Moro, Fabrizio; McMaster, Jonathan; van Slageren, Joris; Lewis, William; Blake, Alexander J.; Liddle, Stephen T.
A delocalized arene-bridged diuranium single-molecule magnet.
Nature chemistry, 2011, 3, 454-460
1507932 CIFC77 H100 Cl4 N4 O2 P4 Si4 U2P -110.8234; 11.895; 16.7711
91.171; 94.744; 101.546
2106.7Mills, David P.; Moro, Fabrizio; McMaster, Jonathan; van Slageren, Joris; Lewis, William; Blake, Alexander J.; Liddle, Stephen T.
A delocalized arene-bridged diuranium single-molecule magnet.
Nature chemistry, 2011, 3, 454-460
1507933 CIFC83 H100 I4 N4 P4 Si4 U2C 1 2/c 135.693; 12.776; 21.448
90; 121.351; 90
8353Mills, David P.; Moro, Fabrizio; McMaster, Jonathan; van Slageren, Joris; Lewis, William; Blake, Alexander J.; Liddle, Stephen T.
A delocalized arene-bridged diuranium single-molecule magnet.
Nature chemistry, 2011, 3, 454-460
1507934 CIFC87.63 H110 Cl1.2 I0.8 N4 P4 Si4 U2F d d 217.3132; 27.8758; 36.903
90; 90; 90
17810Mills, David P.; Moro, Fabrizio; McMaster, Jonathan; van Slageren, Joris; Lewis, William; Blake, Alexander J.; Liddle, Stephen T.
A delocalized arene-bridged diuranium single-molecule magnet.
Nature chemistry, 2011, 3, 454-460
1507935 CIFC56 H71 I2 N2 O P2 Si2 UP -19.836; 12.37; 22.185
74.697; 78.713; 81.039
2537.7Mills, David P.; Moro, Fabrizio; McMaster, Jonathan; van Slageren, Joris; Lewis, William; Blake, Alexander J.; Liddle, Stephen T.
A delocalized arene-bridged diuranium single-molecule magnet.
Nature chemistry, 2011, 3, 454-460
1507936 CIFC39 H55 Cl3 N2 O2 P2 Si2 UP -110.399; 12.5771; 17.9435
85.865; 84.843; 66.167
2136.4Mills, David P.; Moro, Fabrizio; McMaster, Jonathan; van Slageren, Joris; Lewis, William; Blake, Alexander J.; Liddle, Stephen T.
A delocalized arene-bridged diuranium single-molecule magnet.
Nature chemistry, 2011, 3, 454-460
1507937 CIFC16 H36 Au Cl4 NP 1 21/n 114.7634; 8.8165; 18.114
90; 107.073; 90
2253.84Serpell, Christopher J.; Cookson, James; Ozkaya, Dogan; Beer, Paul D.
Core@shell bimetallic nanoparticle synthesis via anion coordination.
Nature chemistry, 2011, 3, 478-483
1507938 CIFC32 H72 Cl6 N2 Pd2P -110.9999; 11.9542; 17.7219
91.4858; 103.352; 107.87
2146.14Serpell, Christopher J.; Cookson, James; Ozkaya, Dogan; Beer, Paul D.
Core@shell bimetallic nanoparticle synthesis via anion coordination.
Nature chemistry, 2011, 3, 478-483
1507939 CIFC45 H39 Cl N2 O7P 1 21 19.7093; 11.9854; 15.6951
90; 93.883; 90
1822.2Tan, Bin; Candeias, Nuno R.; Barbas, 3rd, Carlos F
Construction of bispirooxindoles containing three quaternary stereocentres in a cascade using a single multifunctional organocatalyst.
Nature chemistry, 2011, 3, 473-477
1507940 CIFC36 H29 Cl N2 O6P 1 21 19.4062; 27.3462; 12.0053
90; 97.589; 90
3061Tan, Bin; Candeias, Nuno R.; Barbas, 3rd, Carlos F
Construction of bispirooxindoles containing three quaternary stereocentres in a cascade using a single multifunctional organocatalyst.
Nature chemistry, 2011, 3, 473-477
1507941 CIFC35 H50 O10 Si2P 43 21 216.4998; 16.4998; 27.6279
90; 90; 90
7521.5Tanino, Keiji; Takahashi, Motomasa; Tomata, Yoshihide; Tokura, Hiroshi; Uehara, Taketo; Narabu, Takashi; Miyashita, Masaaki
Total synthesis of solanoeclepin A.
Nature chemistry, 2011, 3, 484-488
1507942 CIFC20 H44 N2 P2 RuP 1 21/c 18.433; 21.6173; 13.7382
90; 107.011; 90
2394.88Askevold, Bjorn; Nieto, Jorge Torres; Tussupbayev, Samat; Diefenbach, Martin; Herdtweck, Eberhardt; Holthausen, Max C.; Schneider, Sven
Ammonia formation by metal-ligand cooperative hydrogenolysis of a nitrido ligand.
Nature chemistry, 2011, 3, 532-537
1507943 CIFC30 H60 N2 O4 P2 RuP 1 21/c 18.4996; 21.0038; 19.3021
90; 90.1511; 90
3445.9Askevold, Bjorn; Nieto, Jorge Torres; Tussupbayev, Samat; Diefenbach, Martin; Herdtweck, Eberhardt; Holthausen, Max C.; Schneider, Sven
Ammonia formation by metal-ligand cooperative hydrogenolysis of a nitrido ligand.
Nature chemistry, 2011, 3, 532-537
1507944 CIFC60 H144 Gd2 K N6 O12 Si8P -110.4307; 13.7396; 16.9587
70.6501; 77.8476; 70.9419
2153.1Rinehart, Jeffrey D.; Fang, Ming; Evans, William J.; Long, Jeffrey R.
Strong exchange and magnetic blocking in N₂³⁻-radical-bridged lanthanide complexes.
Nature chemistry, 2011, 3, 538-542
1507945 CIFC52 H128 Dy2 K N6 O10 Si8P -110.2002; 13.9169; 14.9513
83.367; 74.6788; 72.8161
1953.99Rinehart, Jeffrey D.; Fang, Ming; Evans, William J.; Long, Jeffrey R.
Strong exchange and magnetic blocking in N₂³⁻-radical-bridged lanthanide complexes.
Nature chemistry, 2011, 3, 538-542
1507946 CIFC56 H48.2 Mn2 N24 Nb O8.2I 41/a :220.5155; 20.5155; 15.0907
90; 90; 90
6351.5Ohkoshi, Shin-Ichi; Imoto, Kenta; Tsunobuchi, Yoshihide; Takano, Shinjiro; Tokoro, Hiroko
Light-induced spin-crossover magnet.
Nature chemistry, 2011, 3, 564-569
1507947 CIFC56 Fe2 N24 Nb O10I 41/a :220.2001; 20.2001; 14.9565
90; 90; 90
6102.9Ohkoshi, Shin-Ichi; Imoto, Kenta; Tsunobuchi, Yoshihide; Takano, Shinjiro; Tokoro, Hiroko
Light-induced spin-crossover magnet.
Nature chemistry, 2011, 3, 564-569
1507948 CIFC37 H38 Cl F6 N4 O P3 RhP -19.586; 12.425; 17.906
104.92; 91.5; 107.28
1955.6Tulchinsky, Yuri; Iron, Mark A.; Botoshansky, Mark; Gandelman, Mark
Nitrenium ions as ligands for transition metals.
Nature chemistry, 2011, 3, 525-531
1507949 CIFC24 H52.33 Br Cl2 N5 O2.33 P2 RuR 3 :H28.71; 28.71; 10.909
90; 90; 120
7787Tulchinsky, Yuri; Iron, Mark A.; Botoshansky, Mark; Gandelman, Mark
Nitrenium ions as ligands for transition metals.
Nature chemistry, 2011, 3, 525-531
1507950 CIFC36 H32 Cl4 F6 N3 O P3 RhP 1 21/a 114.09; 18.71; 15.558
90; 101.48; 90
4019.4Tulchinsky, Yuri; Iron, Mark A.; Botoshansky, Mark; Gandelman, Mark
Nitrenium ions as ligands for transition metals.
Nature chemistry, 2011, 3, 525-531
1507951 CIFC28.25 H28 F9 N2.25 O1.25 P3 Rh0.75C 1 2/c 148.783; 16.309; 16.08
90; 92.627; 90
12780Tulchinsky, Yuri; Iron, Mark A.; Botoshansky, Mark; Gandelman, Mark
Nitrenium ions as ligands for transition metals.
Nature chemistry, 2011, 3, 525-531
1507952 CIFC7 H12 Br2 N4 OP 21 21 217.1086; 12.1687; 12.6313
90; 90; 90
1092.64Cakmak, Mesut; Mayer, Peter; Trauner, Dirk
An efficient synthesis of loline alkaloids.
Nature chemistry, 2011, 3, 543-545
1507953 CIFC16 H20 N4 O5 SP 21 21 216.333; 10.3246; 26.9497
90; 90; 90
1762.12Cakmak, Mesut; Mayer, Peter; Trauner, Dirk
An efficient synthesis of loline alkaloids.
Nature chemistry, 2011, 3, 543-545
1507954 CIFC8 H12 N2 O3P 1 21 16.5187; 8.6895; 7.0751
90; 98.453; 90
396.41Cakmak, Mesut; Mayer, Peter; Trauner, Dirk
An efficient synthesis of loline alkaloids.
Nature chemistry, 2011, 3, 543-545
1507955 CIFC27 H42 I2 O8 SiP 21 21 2110.1997; 12.253; 24.807
90; 90; 90
3100.3Wender, Paul A.; Buschmann, Nicole; Cardin, Nathan B.; Jones, Lisa R.; Kan, Cindy; Kee, Jung-Min; Kowalski, John A.; Longcore, Kate E.
Gateway synthesis of daphnane congeners and their protein kinase C affinities and cell-growth activities.
Nature chemistry, 2011, 3, 615-619
1507956 CIFC31 H50 Cl2 O8 SiP 1 21 113.7487; 13.6316; 18.3824
90; 92.377; 90
3442.21Wender, Paul A.; Buschmann, Nicole; Cardin, Nathan B.; Jones, Lisa R.; Kan, Cindy; Kee, Jung-Min; Kowalski, John A.; Longcore, Kate E.
Gateway synthesis of daphnane congeners and their protein kinase C affinities and cell-growth activities.
Nature chemistry, 2011, 3, 615-619
1507957 CIFC33 H47 Br O6 SiP 43 21 210.018; 10.018; 66.931
90; 90; 90
6717.2Wender, Paul A.; Buschmann, Nicole; Cardin, Nathan B.; Jones, Lisa R.; Kan, Cindy; Kee, Jung-Min; Kowalski, John A.; Longcore, Kate E.
Gateway synthesis of daphnane congeners and their protein kinase C affinities and cell-growth activities.
Nature chemistry, 2011, 3, 615-619
1507958 CIFC33 H47 Br O8 SiP 21 21 2110.5239; 14.5191; 22.649
90; 90; 90
3460.7Wender, Paul A.; Buschmann, Nicole; Cardin, Nathan B.; Jones, Lisa R.; Kan, Cindy; Kee, Jung-Min; Kowalski, John A.; Longcore, Kate E.
Gateway synthesis of daphnane congeners and their protein kinase C affinities and cell-growth activities.
Nature chemistry, 2011, 3, 615-619
1507959 CIFC40 H30 B Cl F12 P2 Pt S2P 1 21/n 116.4546; 14.6655; 16.651
90; 92.343; 90
4014.78Spokoyny, Alexander M.; Machan, Charles W.; Clingerman, Daniel J.; Rosen, Mari S.; Wiester, Michael J.; Kennedy, Robert D.; Stern, Charlotte L.; Sarjeant, Amy A.; Mirkin, Chad A.
A coordination chemistry dichotomy for icosahedral carborane-based ligands.
Nature chemistry, 2011, 3, 590-596
1507960 CIFC32 H50 B22 F8 P2 Pt S2P 1 21/n 113.2738; 18.9981; 19.6952
90; 105.576; 90
4784.3Spokoyny, Alexander M.; Machan, Charles W.; Clingerman, Daniel J.; Rosen, Mari S.; Wiester, Michael J.; Kennedy, Robert D.; Stern, Charlotte L.; Sarjeant, Amy A.; Mirkin, Chad A.
A coordination chemistry dichotomy for icosahedral carborane-based ligands.
Nature chemistry, 2011, 3, 590-596
1507961 CIFC69 H110 B44 Cl10 F16 P4 Pt2 S4P 1 21/n 113.1494; 36.1583; 23.7534
90; 95.836; 90
11235.3Spokoyny, Alexander M.; Machan, Charles W.; Clingerman, Daniel J.; Rosen, Mari S.; Wiester, Michael J.; Kennedy, Robert D.; Stern, Charlotte L.; Sarjeant, Amy A.; Mirkin, Chad A.
A coordination chemistry dichotomy for icosahedral carborane-based ligands.
Nature chemistry, 2011, 3, 590-596
1507962 CIFC33 H51 B22 Cl2 F8 P2 Pt S2P 1 21 113.5537; 19.4743; 19.6358
90; 97.836; 90
5134.45Spokoyny, Alexander M.; Machan, Charles W.; Clingerman, Daniel J.; Rosen, Mari S.; Wiester, Michael J.; Kennedy, Robert D.; Stern, Charlotte L.; Sarjeant, Amy A.; Mirkin, Chad A.
A coordination chemistry dichotomy for icosahedral carborane-based ligands.
Nature chemistry, 2011, 3, 590-596
1507963 CIFC39 H64 B22 Cl6 F8 P2 Pt S2P 1 21/c 126.1737; 19.4713; 26.191
90; 118.272; 90
11755.6Spokoyny, Alexander M.; Machan, Charles W.; Clingerman, Daniel J.; Rosen, Mari S.; Wiester, Michael J.; Kennedy, Robert D.; Stern, Charlotte L.; Sarjeant, Amy A.; Mirkin, Chad A.
A coordination chemistry dichotomy for icosahedral carborane-based ligands.
Nature chemistry, 2011, 3, 590-596
1507964 CIFC38 H50 B2 Cl4 F8 P2 Pt S2P -112.1925; 12.9626; 15.407
84.221; 72.108; 71.635
2199.22Spokoyny, Alexander M.; Machan, Charles W.; Clingerman, Daniel J.; Rosen, Mari S.; Wiester, Michael J.; Kennedy, Robert D.; Stern, Charlotte L.; Sarjeant, Amy A.; Mirkin, Chad A.
A coordination chemistry dichotomy for icosahedral carborane-based ligands.
Nature chemistry, 2011, 3, 590-596
1507965 CIFC50 H62 B2 Cl4 F8 P2 Pt S2P -113.2826; 18.4796; 23.5694
110.442; 99.975; 91.216
5318Spokoyny, Alexander M.; Machan, Charles W.; Clingerman, Daniel J.; Rosen, Mari S.; Wiester, Michael J.; Kennedy, Robert D.; Stern, Charlotte L.; Sarjeant, Amy A.; Mirkin, Chad A.
A coordination chemistry dichotomy for icosahedral carborane-based ligands.
Nature chemistry, 2011, 3, 590-596
1507966 CIFC44 H46 B2 F8 P2 Pt S2P -112.6691; 19.7198; 19.9223
93.78; 107.622; 100.194
4630.74Spokoyny, Alexander M.; Machan, Charles W.; Clingerman, Daniel J.; Rosen, Mari S.; Wiester, Michael J.; Kennedy, Robert D.; Stern, Charlotte L.; Sarjeant, Amy A.; Mirkin, Chad A.
A coordination chemistry dichotomy for icosahedral carborane-based ligands.
Nature chemistry, 2011, 3, 590-596
1507967 CIFC40.3 H38.6 B2 Cl0.6 F8 P2 Pt S2P 1 21 19.4556; 18.6226; 24.1172
90; 98.277; 90
4202.5Spokoyny, Alexander M.; Machan, Charles W.; Clingerman, Daniel J.; Rosen, Mari S.; Wiester, Michael J.; Kennedy, Robert D.; Stern, Charlotte L.; Sarjeant, Amy A.; Mirkin, Chad A.
A coordination chemistry dichotomy for icosahedral carborane-based ligands.
Nature chemistry, 2011, 3, 590-596
1507968 CIFC41 H32 B2 Cl2 F16 P2 Pt S2P 1 2/n 110.9643; 14.7439; 13.67
90; 96.109; 90
2197.3Spokoyny, Alexander M.; Machan, Charles W.; Clingerman, Daniel J.; Rosen, Mari S.; Wiester, Michael J.; Kennedy, Robert D.; Stern, Charlotte L.; Sarjeant, Amy A.; Mirkin, Chad A.
A coordination chemistry dichotomy for icosahedral carborane-based ligands.
Nature chemistry, 2011, 3, 590-596
1507969 CIFC16 H25 B10 P SP 1 21/c 16.8212; 17.6275; 17.9702
90; 98.053; 90
2139.44Spokoyny, Alexander M.; Machan, Charles W.; Clingerman, Daniel J.; Rosen, Mari S.; Wiester, Michael J.; Kennedy, Robert D.; Stern, Charlotte L.; Sarjeant, Amy A.; Mirkin, Chad A.
A coordination chemistry dichotomy for icosahedral carborane-based ligands.
Nature chemistry, 2011, 3, 590-596
1507970 CIFC16 H25 B10 P SP 1 21/n 110.5592; 14.1502; 14.2279
90; 93.374; 90
2122.2Spokoyny, Alexander M.; Machan, Charles W.; Clingerman, Daniel J.; Rosen, Mari S.; Wiester, Michael J.; Kennedy, Robert D.; Stern, Charlotte L.; Sarjeant, Amy A.; Mirkin, Chad A.
A coordination chemistry dichotomy for icosahedral carborane-based ligands.
Nature chemistry, 2011, 3, 590-596
1507971 CIFC18 H29 B10 P SP 1 21/n 19.5269; 13.5196; 18.9816
90; 103.987; 90
2372.34Spokoyny, Alexander M.; Machan, Charles W.; Clingerman, Daniel J.; Rosen, Mari S.; Wiester, Michael J.; Kennedy, Robert D.; Stern, Charlotte L.; Sarjeant, Amy A.; Mirkin, Chad A.
A coordination chemistry dichotomy for icosahedral carborane-based ligands.
Nature chemistry, 2011, 3, 590-596
1507972 CIFC16 H25 B10 Cl2 P Pt SP 1 21/n 112.3211; 13.5986; 14.9381
90; 110.031; 90
2351.47Spokoyny, Alexander M.; Machan, Charles W.; Clingerman, Daniel J.; Rosen, Mari S.; Wiester, Michael J.; Kennedy, Robert D.; Stern, Charlotte L.; Sarjeant, Amy A.; Mirkin, Chad A.
A coordination chemistry dichotomy for icosahedral carborane-based ligands.
Nature chemistry, 2011, 3, 590-596
1507973 CIFC16 H25 B10 Cl2 P Pt SP n a 2114.2619; 11.1469; 15.0388
90; 90; 90
2390.81Spokoyny, Alexander M.; Machan, Charles W.; Clingerman, Daniel J.; Rosen, Mari S.; Wiester, Michael J.; Kennedy, Robert D.; Stern, Charlotte L.; Sarjeant, Amy A.; Mirkin, Chad A.
A coordination chemistry dichotomy for icosahedral carborane-based ligands.
Nature chemistry, 2011, 3, 590-596
1507974 CIFC20 H34 B10 Cl2 O0.5 P Pt SP 1 21/c 19.6308; 21.48; 14.1467
90; 96.8895; 90
2905.39Spokoyny, Alexander M.; Machan, Charles W.; Clingerman, Daniel J.; Rosen, Mari S.; Wiester, Michael J.; Kennedy, Robert D.; Stern, Charlotte L.; Sarjeant, Amy A.; Mirkin, Chad A.
A coordination chemistry dichotomy for icosahedral carborane-based ligands.
Nature chemistry, 2011, 3, 590-596
1507975 CIFC24 H29 Cl2 P Pt SP 1 21/n 111.897; 13.9412; 14.7305
90; 110.2; 90
2292.9Spokoyny, Alexander M.; Machan, Charles W.; Clingerman, Daniel J.; Rosen, Mari S.; Wiester, Michael J.; Kennedy, Robert D.; Stern, Charlotte L.; Sarjeant, Amy A.; Mirkin, Chad A.
A coordination chemistry dichotomy for icosahedral carborane-based ligands.
Nature chemistry, 2011, 3, 590-596
1507976 CIFC22.5 H24 Cl3 P Pt SP 1 21/c 111.574; 13.787; 14.616
90; 99.605; 90
2299.59Spokoyny, Alexander M.; Machan, Charles W.; Clingerman, Daniel J.; Rosen, Mari S.; Wiester, Michael J.; Kennedy, Robert D.; Stern, Charlotte L.; Sarjeant, Amy A.; Mirkin, Chad A.
A coordination chemistry dichotomy for icosahedral carborane-based ligands.
Nature chemistry, 2011, 3, 590-596
1507977 CIFC20 H37 N2 O P RuP 1 21/n 112.71; 13.992; 12.838
90; 108.43; 90
2166Balaraman, Ekambaram; Gunanathan, Chidambaram; Zhang, Jing; Shimon, Linda J. W.; Milstein, David
Efficient hydrogenation of organic carbonates, carbamates and formates indicates alternative routes to methanol based on CO2 and CO.
Nature chemistry, 2011, 3, 609-614
1507978 CIFC30 H35 Cl N4 O4P 1 21 19.48719; 12.8846; 12.0111
90; 96.4486; 90
1458.93Hashimoto, Takuya; Kimura, Hidenori; Kawamata, Yu; Maruoka, Keiji
Generation and exploitation of acyclic azomethine imines in chiral Brønsted acid catalysis.
Nature chemistry, 2011, 3, 642-646
1507979 CIFC7 H22 F18 N3 O6 V7R -3 m :H7.354; 7.354; 43.22
90; 90; 120
2024.2Aidoudi, Farida H.; Aldous, David W.; Goff, Richard J.; Slawin, Alexandra M. Z.; Attfield, J. Paul; Morris, Russell E.; Lightfoot, Philip
An ionothermally prepared S = 1/2 vanadium oxyfluoride kagome lattice.
Nature chemistry, 2011, 3, 801-806
1507980 CIFC246 H375 Cl3 Fe N51 Na O52P 21 21 2119.1682; 36.703; 40.905
90; 90; 90
28778Ousaka, Naoki; Takeyama, Yuki; Iida, Hiroki; Yashima, Eiji
Chiral information harvesting in dendritic metallopeptides.
Nature chemistry, 2011, 3, 856-861
1507981 CIFC65 H118 Dy4 Mo Si4P 1 21/n 113.2633; 30.498; 18.0731
90; 91.588; 90
7307.8Shima, Takanori; Luo, Yi; Stewart, Timothy; Bau, Robert; McIntyre, Garry J.; Mason, Sax A.; Hou, Zhaomin
Molecular heterometallic hydride clusters composed of rare-earth and d-transition metals.
Nature chemistry, 2011, 3, 814-820
1507982 CIFC65 H116 Dy4 Mo Si4P 1 21/n 113.2652; 30.812; 17.8231
90; 92.078; 90
7280Shima, Takanori; Luo, Yi; Stewart, Timothy; Bau, Robert; McIntyre, Garry J.; Mason, Sax A.; Hou, Zhaomin
Molecular heterometallic hydride clusters composed of rare-earth and d-transition metals.
Nature chemistry, 2011, 3, 814-820
1507983 CIFC65 H118 Ho4 Mo Si4P 1 21/n 113.2501; 30.326; 18.0991
90; 91.819; 90
7269Shima, Takanori; Luo, Yi; Stewart, Timothy; Bau, Robert; McIntyre, Garry J.; Mason, Sax A.; Hou, Zhaomin
Molecular heterometallic hydride clusters composed of rare-earth and d-transition metals.
Nature chemistry, 2011, 3, 814-820
1507984 CIFC65 H116 Ho4 Mo Si4P 1 21/n 113.2847; 30.691; 17.87
90; 92.072; 90
7281.2Shima, Takanori; Luo, Yi; Stewart, Timothy; Bau, Robert; McIntyre, Garry J.; Mason, Sax A.; Hou, Zhaomin
Molecular heterometallic hydride clusters composed of rare-earth and d-transition metals.
Nature chemistry, 2011, 3, 814-820
1507985 CIFC61 H119 Mo P Si4 Y4P 1 21/n 113.8691; 22.8409; 24.1291
90; 91.841; 90
7639.7Shima, Takanori; Luo, Yi; Stewart, Timothy; Bau, Robert; McIntyre, Garry J.; Mason, Sax A.; Hou, Zhaomin
Molecular heterometallic hydride clusters composed of rare-earth and d-transition metals.
Nature chemistry, 2011, 3, 814-820
1507986 CIFC61 H119 P Si4 W Y4P 1 21/n 114.0625; 23.1646; 24.1202
90; 92.501; 90
7849.7Shima, Takanori; Luo, Yi; Stewart, Timothy; Bau, Robert; McIntyre, Garry J.; Mason, Sax A.; Hou, Zhaomin
Molecular heterometallic hydride clusters composed of rare-earth and d-transition metals.
Nature chemistry, 2011, 3, 814-820
1507987 CIFC64 H126 P Si4 W Y4P -113.4105; 14.0678; 22.368
95.1377; 92.0563; 118.155
3690.9Shima, Takanori; Luo, Yi; Stewart, Timothy; Bau, Robert; McIntyre, Garry J.; Mason, Sax A.; Hou, Zhaomin
Molecular heterometallic hydride clusters composed of rare-earth and d-transition metals.
Nature chemistry, 2011, 3, 814-820
1507988 CIFC64 H124 Mo Si4 Y4P 1 21/n 113.5989; 30.857; 17.665
90; 92.951; 90
7402.8Shima, Takanori; Luo, Yi; Stewart, Timothy; Bau, Robert; McIntyre, Garry J.; Mason, Sax A.; Hou, Zhaomin
Molecular heterometallic hydride clusters composed of rare-earth and d-transition metals.
Nature chemistry, 2011, 3, 814-820
1507989 CIFC64 H124 Si4 W Y4P 1 21/n 113.5822; 30.8031; 17.6738
90; 92.814; 90
7385.3Shima, Takanori; Luo, Yi; Stewart, Timothy; Bau, Robert; McIntyre, Garry J.; Mason, Sax A.; Hou, Zhaomin
Molecular heterometallic hydride clusters composed of rare-earth and d-transition metals.
Nature chemistry, 2011, 3, 814-820
1507990 CIFC64 H124 Si4 W Y4P 1 21/n 113.2794; 30.4306; 18.1306
90; 91.851; 90
7322.8Shima, Takanori; Luo, Yi; Stewart, Timothy; Bau, Robert; McIntyre, Garry J.; Mason, Sax A.; Hou, Zhaomin
Molecular heterometallic hydride clusters composed of rare-earth and d-transition metals.
Nature chemistry, 2011, 3, 814-820
1507991 CIFC64 H118 Si4 W Y4P 1 21/c 113.7848; 20.179; 27.0183
90; 91.457; 90
7513.1Shima, Takanori; Luo, Yi; Stewart, Timothy; Bau, Robert; McIntyre, Garry J.; Mason, Sax A.; Hou, Zhaomin
Molecular heterometallic hydride clusters composed of rare-earth and d-transition metals.
Nature chemistry, 2011, 3, 814-820
1507992 CIFC65 H116 Mo Si4 Y4P 1 21/n 113.292; 30.7831; 17.8644
90; 92.393; 90
7303.2Shima, Takanori; Luo, Yi; Stewart, Timothy; Bau, Robert; McIntyre, Garry J.; Mason, Sax A.; Hou, Zhaomin
Molecular heterometallic hydride clusters composed of rare-earth and d-transition metals.
Nature chemistry, 2011, 3, 814-820
1507993 CIFC20 H26 B2 N2 O4P 1 21 110.05; 10.1301; 10.2065
90; 96.154; 90
1033.11Lee, Jack Chang Hung; McDonald, Robert; Hall, Dennis G.
Enantioselective preparation and chemoselective cross-coupling of 1,1-diboron compounds.
Nature chemistry, 2011, 3, 894-899
1507994 CIFC26 H29 B2 Br N2 O4P 19.058; 9.824; 14.734
98.499; 96.322; 92.204
1286.8Lee, Jack Chang Hung; McDonald, Robert; Hall, Dennis G.
Enantioselective preparation and chemoselective cross-coupling of 1,1-diboron compounds.
Nature chemistry, 2011, 3, 894-899
1507995 CIFC30 H38 O4P 1 21/c 114.2028; 8.4774; 22.6154
90; 107.307; 90
2599.7Biber, Nicole; Möws, Katrin; Plietker, Bernd
The total synthesis of hyperpapuanone, hyperibone L, epi-clusianone and oblongifolin A.
Nature chemistry, 2011, 3, 938-942
1507996 CIFC30 H22 F2 N2 O4 Pd2P -111.828; 12.398; 13.938
85.265; 69.159; 68.396
1773.2Campbell, Michael G.; Powers, David C.; Raynaud, Jean; Graham, Michael J.; Xie, Ping; Lee, Eunsung; Ritter, Tobias
Synthesis and structure of solution-stable one-dimensional palladium wires.
Nature chemistry, 2011, 3, 949-953
1507997 CIFC32.5 H27 Cl5 N2 O4 Pd2P 1 21/c 111.3484; 16.5864; 17.37
90; 97.391; 90
3242.4Campbell, Michael G.; Powers, David C.; Raynaud, Jean; Graham, Michael J.; Xie, Ping; Lee, Eunsung; Ritter, Tobias
Synthesis and structure of solution-stable one-dimensional palladium wires.
Nature chemistry, 2011, 3, 949-953
1507998 CIFC32 H26 Cl4 F N2 O4 Pd2P 1 21/c 111.2537; 16.3457; 17.331
90; 97.294; 90
3162.2Campbell, Michael G.; Powers, David C.; Raynaud, Jean; Graham, Michael J.; Xie, Ping; Lee, Eunsung; Ritter, Tobias
Synthesis and structure of solution-stable one-dimensional palladium wires.
Nature chemistry, 2011, 3, 949-953
1507999 CIFC32 H26 Cl4 F N2 O4 Pd2P 1 21/c 111.3423; 16.545; 17.388
90; 97.364; 90
3236.1Campbell, Michael G.; Powers, David C.; Raynaud, Jean; Graham, Michael J.; Xie, Ping; Lee, Eunsung; Ritter, Tobias
Synthesis and structure of solution-stable one-dimensional palladium wires.
Nature chemistry, 2011, 3, 949-953
1508000 CIFC32 H26 Cl4 F N2 O4 Pd2P 1 21/c 111.3622; 16.569; 17.444
90; 97.382; 90
3256.8Campbell, Michael G.; Powers, David C.; Raynaud, Jean; Graham, Michael J.; Xie, Ping; Lee, Eunsung; Ritter, Tobias
Synthesis and structure of solution-stable one-dimensional palladium wires.
Nature chemistry, 2011, 3, 949-953
1508001 CIFC32 H26 Cl4 F N2 O4 Pd2P 1 21/c 111.3819; 16.6013; 17.4899
90; 97.441; 90
3277Campbell, Michael G.; Powers, David C.; Raynaud, Jean; Graham, Michael J.; Xie, Ping; Lee, Eunsung; Ritter, Tobias
Synthesis and structure of solution-stable one-dimensional palladium wires.
Nature chemistry, 2011, 3, 949-953
1508002 CIFC32 H26 Cl4 F N2 O4 Pd2P 1 21/c 111.395; 16.6424; 17.529
90; 97.527; 90
3295.6Campbell, Michael G.; Powers, David C.; Raynaud, Jean; Graham, Michael J.; Xie, Ping; Lee, Eunsung; Ritter, Tobias
Synthesis and structure of solution-stable one-dimensional palladium wires.
Nature chemistry, 2011, 3, 949-953
1508003 CIFC32 H26 Cl4 F N2 O4 Pd2P 1 21/c 111.4138; 16.7; 17.58
90; 97.639; 90
3321.2Campbell, Michael G.; Powers, David C.; Raynaud, Jean; Graham, Michael J.; Xie, Ping; Lee, Eunsung; Ritter, Tobias
Synthesis and structure of solution-stable one-dimensional palladium wires.
Nature chemistry, 2011, 3, 949-953
1508004 CIFC40 H60 Hf2 N2 Si2P 1 21/n 111.2764; 26.267; 13.5398
90; 96.524; 90
3984.5Knobloch, Donald J.; Lobkovsky, Emil; Chirik, Paul J.
Dinitrogen cleavage and functionalization by carbon monoxide promoted by a hafnium complex.
Nature chemistry, 2010, 2, 30-35
1508005 CIFC42 H60 Hf2 N2 O2 Si2P -18.7137; 13.6257; 17.4952
96.123; 92.498; 95.596
2052.5Knobloch, Donald J.; Lobkovsky, Emil; Chirik, Paul J.
Dinitrogen cleavage and functionalization by carbon monoxide promoted by a hafnium complex.
Nature chemistry, 2010, 2, 30-35
1508006 CIFC41 H60 Hf2 N2 O Si2P -110.7033; 13.8345; 14.9713
91.954; 104.98; 109.366
2002.83Knobloch, Donald J.; Lobkovsky, Emil; Chirik, Paul J.
Dinitrogen cleavage and functionalization by carbon monoxide promoted by a hafnium complex.
Nature chemistry, 2010, 2, 30-35
1508007 CIFC17 H26 OP 21 21 216.5955; 7.882; 29.1769
90; 90; 90
1516.78Thaler, Tobias; Haag, Benjamin; Gavryushin, Andrei; Schober, Katrin; Hartmann, Evelyn; Gschwind, Ruth M.; Zipse, Hendrik; Mayer, Peter; Knochel, Paul
Highly diastereoselective Csp₃-Csp₂ Negishi cross-coupling with 1,2-, 1,3- and 1,4-substituted cycloalkylzinc compounds.
Nature chemistry, 2010, 2, 125-130
1508008 CIFC15 H20 O2C 1 2/c 115.7972; 6.3827; 26.214
90; 96.5673; 90
2625.78Thaler, Tobias; Haag, Benjamin; Gavryushin, Andrei; Schober, Katrin; Hartmann, Evelyn; Gschwind, Ruth M.; Zipse, Hendrik; Mayer, Peter; Knochel, Paul
Highly diastereoselective Csp₃-Csp₂ Negishi cross-coupling with 1,2-, 1,3- and 1,4-substituted cycloalkylzinc compounds.
Nature chemistry, 2010, 2, 125-130
1508009 CIFC34 H52 OP 1 21 116.2591; 9.4526; 18.8939
90; 95.508; 90
2890.41Thaler, Tobias; Haag, Benjamin; Gavryushin, Andrei; Schober, Katrin; Hartmann, Evelyn; Gschwind, Ruth M.; Zipse, Hendrik; Mayer, Peter; Knochel, Paul
Highly diastereoselective Csp₃-Csp₂ Negishi cross-coupling with 1,2-, 1,3- and 1,4-substituted cycloalkylzinc compounds.
Nature chemistry, 2010, 2, 125-130
1508010 CIFC56 H48 F24 N2 O4 Si2C 1 2/c 117.113; 16.1501; 20.618
90; 107.588; 90
5432Kano, Naokazu; Miyake, Hideaki; Sasaki, Keishi; Kawashima, Takayuki; Mizorogi, Naomi; Nagase, Shigeru
Dianionic species with a bond consisting of two pentacoordinated silicon atoms.
Nature chemistry, 2010, 2, 112-116
1508011 CIFC21 H24 N2 OP 21 21 2110.2994; 12.6537; 13.9603
90; 90; 90
1819.38Streuff, Jan; White, David E.; Virgil, Scott C.; Stoltz, Brian M.
A palladium-catalysed enolate alkylation cascade for the formation of adjacent quaternary and tertiary stereocentres.
Nature chemistry, 2010, 2, 192-196
1508012 CIFC21 H24 N2 OP 1 21 16.7294; 15.7191; 17.4651
90; 98.474; 90
1827.29Streuff, Jan; White, David E.; Virgil, Scott C.; Stoltz, Brian M.
A palladium-catalysed enolate alkylation cascade for the formation of adjacent quaternary and tertiary stereocentres.
Nature chemistry, 2010, 2, 192-196
1508013 CIFC4 H16 Ga2 N2 O S7 Sb2P 1 21 19.1374; 10.0229; 11.704
90; 106.312; 90
1028.7Ding, Nan; Kanatzidis, Mercouri G.
Selective incarceration of caesium ions by Venus flytrap action of a flexible framework sulfide.
Nature chemistry, 2010, 2, 187-191
1508014 CIFCs2 Ga2 S7 Sb2C 1 2 115.591; 9.1815; 12.575
90; 114.26; 90
1641.1Ding, Nan; Kanatzidis, Mercouri G.
Selective incarceration of caesium ions by Venus flytrap action of a flexible framework sulfide.
Nature chemistry, 2010, 2, 187-191
1508015 CIFC54 Cl8C 1 2/c 118.57; 10.7448; 16.801
90; 110.877; 90
3132.2Tan, Yuan-Zhi; Li, Jia; Zhu, Feng; Han, Xiao; Jiang, Wen-Sheng; Huang, Rong-Bin; Zheng, Zhiping; Qian, Zhuo-Zhen; Chen, Rui-Ting; Liao, Zhao-Jiang; Xie, Su-Yuan; Lu, Xin; Zheng, Lan-Sun
Chlorofullerenes featuring triple sequentially fused pentagons.
Nature chemistry, 2010, 2, 269-273
1508016 CIFC59.5 H4 Cl12P 1 21/c 117.919; 36.241; 12.291
90; 90.174; 90
7982Tan, Yuan-Zhi; Li, Jia; Zhu, Feng; Han, Xiao; Jiang, Wen-Sheng; Huang, Rong-Bin; Zheng, Zhiping; Qian, Zhuo-Zhen; Chen, Rui-Ting; Liao, Zhao-Jiang; Xie, Su-Yuan; Lu, Xin; Zheng, Lan-Sun
Chlorofullerenes featuring triple sequentially fused pentagons.
Nature chemistry, 2010, 2, 269-273
1508017 CIFC66 Cl6P 1 21/n 110.812; 19.202; 17.156
90; 105.162; 90
3437.8Tan, Yuan-Zhi; Li, Jia; Zhu, Feng; Han, Xiao; Jiang, Wen-Sheng; Huang, Rong-Bin; Zheng, Zhiping; Qian, Zhuo-Zhen; Chen, Rui-Ting; Liao, Zhao-Jiang; Xie, Su-Yuan; Lu, Xin; Zheng, Lan-Sun
Chlorofullerenes featuring triple sequentially fused pentagons.
Nature chemistry, 2010, 2, 269-273
1508018 CIFC285 H23 Cl40P -112.3298; 18.7616; 19.4956
96.637; 100.007; 100.282
4319.6Tan, Yuan-Zhi; Li, Jia; Zhu, Feng; Han, Xiao; Jiang, Wen-Sheng; Huang, Rong-Bin; Zheng, Zhiping; Qian, Zhuo-Zhen; Chen, Rui-Ting; Liao, Zhao-Jiang; Xie, Su-Yuan; Lu, Xin; Zheng, Lan-Sun
Chlorofullerenes featuring triple sequentially fused pentagons.
Nature chemistry, 2010, 2, 269-273
1508019 CIFC29 H25 N5A b a 217.919; 15.19; 8.255
90; 90; 90
2246.9Bechlars, Bettina; D'Alessandro, Deanna M; Jenkins, David M.; Iavarone, Anthony T.; Glover, Starla D.; Kubiak, Clifford P.; Long, Jeffrey R.
High-spin ground states via electron delocalization in mixed-valence imidazolate-bridged divanadium complexes.
Nature chemistry, 2010, 2, 362-368
1508020 CIFC31 H28 F12 N6 O0 P2 VP -111.55; 12.579; 13.191
110.056; 108.607; 90.638
1690.4Bechlars, Bettina; D'Alessandro, Deanna M; Jenkins, David M.; Iavarone, Anthony T.; Glover, Starla D.; Kubiak, Clifford P.; Long, Jeffrey R.
High-spin ground states via electron delocalization in mixed-valence imidazolate-bridged divanadium complexes.
Nature chemistry, 2010, 2, 362-368
1508021 CIFC75 H64 F18 N13 P3 V2P 1 21/n 121.554; 14.9192; 24.647
90; 115.805; 90
7135.4Bechlars, Bettina; D'Alessandro, Deanna M; Jenkins, David M.; Iavarone, Anthony T.; Glover, Starla D.; Kubiak, Clifford P.; Long, Jeffrey R.
High-spin ground states via electron delocalization in mixed-valence imidazolate-bridged divanadium complexes.
Nature chemistry, 2010, 2, 362-368
1508022 CIFC78 H79.5 F18 N15.5 O P3 V2P 1 21/c 113.8924; 38.601; 15.8142
90; 106.114; 90
8147.3Bechlars, Bettina; D'Alessandro, Deanna M; Jenkins, David M.; Iavarone, Anthony T.; Glover, Starla D.; Kubiak, Clifford P.; Long, Jeffrey R.
High-spin ground states via electron delocalization in mixed-valence imidazolate-bridged divanadium complexes.
Nature chemistry, 2010, 2, 362-368
1508023 CIFC81 H84 F24 N17 O P4 V2P c a 2123.4395; 21.7426; 17.4435
90; 90; 90
8889.8Bechlars, Bettina; D'Alessandro, Deanna M; Jenkins, David M.; Iavarone, Anthony T.; Glover, Starla D.; Kubiak, Clifford P.; Long, Jeffrey R.
High-spin ground states via electron delocalization in mixed-valence imidazolate-bridged divanadium complexes.
Nature chemistry, 2010, 2, 362-368
1508024 CIFC42 H40 F24 N12 P4P -19.832; 10.944; 12.335
94.45; 97.04; 104.09
1269.6Gong, Han-Yuan; Rambo, Brett M.; Karnas, Elizabeth; Lynch, Vincent M.; Sessler, Jonathan L.
A 'Texas-sized' molecular box that forms an anion-induced supramolecular necklace.
Nature chemistry, 2010, 2, 406-409
1508025 CIFC40 H37 F24 N11 P4P -112.2809; 14.7942; 15.6032
64.702; 86.784; 77.402
2499.1Gong, Han-Yuan; Rambo, Brett M.; Karnas, Elizabeth; Lynch, Vincent M.; Sessler, Jonathan L.
A 'Texas-sized' molecular box that forms an anion-induced supramolecular necklace.
Nature chemistry, 2010, 2, 406-409
1508026 CIFC46 H47 F18 N10 O8 P3P -19.6484; 10.886; 12.208
107.06; 92.25; 93.86
1220.7Gong, Han-Yuan; Rambo, Brett M.; Karnas, Elizabeth; Lynch, Vincent M.; Sessler, Jonathan L.
A 'Texas-sized' molecular box that forms an anion-induced supramolecular necklace.
Nature chemistry, 2010, 2, 406-409
1508027 CIFC36 H41 F3 O3 P2 Pd SP -110.9546; 11.5774; 30.591
85.323; 81.59; 63.569
3436.2Wassenaar, Jeroen; Jansen, Eveline; van Zeist, Willem-Jan; Bickelhaupt, F. Matthias; Siegler, Maxime A.; Spek, Anthony L.; Reek, Joost N. H.
Catalyst selection based on intermediate stability measured by mass spectrometry.
Nature chemistry, 2010, 2, 417-421
1508028 CIFC70 H70 B F20 N2 P2P 1 21/c 113.2289; 23.185; 23.482
90; 96.49; 90
7156.1Back, Olivier; Donnadieu, Bruno; Parameswaran, Pattiyil; Frenking, Gernot; Bertrand, Guy
Isolation of crystalline carbene-stabilized P(2)-radical cations and P(2)-dications.
Nature chemistry, 2010, 2, 369-373
1508029 CIFC84 H77 B F21 N4 P2P 1 21/n 112.4547; 39.76; 16.5856
90; 97.978; 90
8133.7Back, Olivier; Donnadieu, Bruno; Parameswaran, Pattiyil; Frenking, Gernot; Bertrand, Guy
Isolation of crystalline carbene-stabilized P(2)-radical cations and P(2)-dications.
Nature chemistry, 2010, 2, 369-373
1508030 CIFC28 H36 F3 N2 O3 P SP -111.9641; 12.3049; 12.6616
88.469; 62.462; 63.204
1435.93Back, Olivier; Donnadieu, Bruno; Parameswaran, Pattiyil; Frenking, Gernot; Bertrand, Guy
Isolation of crystalline carbene-stabilized P(2)-radical cations and P(2)-dications.
Nature chemistry, 2010, 2, 369-373
1508031 CIFC40 H40 Ag26 N60 O80 P2 W24P n -3 m :219.3329; 19.3329; 19.3329
90; 90; 90
7225.9Kuang, Xiaofei; Wu, Xiaoyuan; Yu, Rongmin; Donahue, James P.; Huang, Jinshun; Lu, Can-Zhong
Assembly of a metal-organic framework by sextuple intercatenation of discrete adamantane-like cages.
Nature chemistry, 2010, 2, 461-465
1508032 CIFC24 N3 O40 P V2 W10P b c n15.5486; 21.1547; 23.1083
90; 90; 90
7600.92Kamata, Keigo; Yonehara, Kazuhiro; Nakagawa, Yoshinao; Uehara, Kazuhiro; Mizuno, Noritaka
Efficient stereo- and regioselective hydroxylation of alkanes catalysed by a bulky polyoxometalate.
Nature chemistry, 2010, 2, 478-483
1508033 CIFC126 H140 B2 N3 O8P c c 215.13; 25.587; 31.3
90; 90; 90
12117Miwa, Kazuhiro; Furusho, Yoshio; Yashima, Eiji
Ion-triggered spring-like motion of a double helicate accompanied by anisotropic twisting.
Nature chemistry, 2010, 2, 444-449
1508034 CIFC126 H142 B2 N7 Na O8P 1 21/c 115.661; 27.148; 26.357
90; 95.726; 90
11150Miwa, Kazuhiro; Furusho, Yoshio; Yashima, Eiji
Ion-triggered spring-like motion of a double helicate accompanied by anisotropic twisting.
Nature chemistry, 2010, 2, 444-449
1508035 CIFC37 H57 F3 Fe N2 O3 P3 S SiP 21 21 2113.582; 14.3581; 20.6839
90; 90; 90
4033.6Lee, Yunho; Mankad, Neal P.; Peters, Jonas C.
Triggering N(2) uptake via redox-induced expulsion of coordinated NH(3) and N(2) silylation at trigonal bipyramidal iron.
Nature chemistry, 2010, 2, 558-565
1508036 CIFC98 H81 B F24 Fe N O3 P3 SiP 1 n 113.2539; 16.3059; 21.3757
90; 90.561; 90
4619.43Lee, Yunho; Mankad, Neal P.; Peters, Jonas C.
Triggering N(2) uptake via redox-induced expulsion of coordinated NH(3) and N(2) silylation at trigonal bipyramidal iron.
Nature chemistry, 2010, 2, 558-565
1508037 CIFC68 H69 B F24 Fe N P3 SiP 1 21 112.9134; 38.169; 14.466
90; 92.377; 90
7124Lee, Yunho; Mankad, Neal P.; Peters, Jonas C.
Triggering N(2) uptake via redox-induced expulsion of coordinated NH(3) and N(2) silylation at trigonal bipyramidal iron.
Nature chemistry, 2010, 2, 558-565
1508039 CIFC65 H62 F3 Fe N2 O4 P3 S SiP 1 21/c 116.802; 14.061; 25.384
90; 104.615; 90
5803Lee, Yunho; Mankad, Neal P.; Peters, Jonas C.
Triggering N(2) uptake via redox-induced expulsion of coordinated NH(3) and N(2) silylation at trigonal bipyramidal iron.
Nature chemistry, 2010, 2, 558-565
1508040 CIFC78 H51 B F15 Fe N2 P3 SiP 1 21/n 119.2563; 14.1012; 24.8052
90; 103.907; 90
6538.1Lee, Yunho; Mankad, Neal P.; Peters, Jonas C.
Triggering N(2) uptake via redox-induced expulsion of coordinated NH(3) and N(2) silylation at trigonal bipyramidal iron.
Nature chemistry, 2010, 2, 558-565
1508041 CIFC65 H83 B F15 Fe N2 P3 SiP 1 21/c 114.1228; 21.6463; 21.0628
90; 95.819; 90
6405.9Lee, Yunho; Mankad, Neal P.; Peters, Jonas C.
Triggering N(2) uptake via redox-induced expulsion of coordinated NH(3) and N(2) silylation at trigonal bipyramidal iron.
Nature chemistry, 2010, 2, 558-565
1508042 CIFC60 H47 Fe N2 P3 SiC 1 2/c 122.9376; 12.8125; 36.9247
90; 102.808; 90
10581.7Lee, Yunho; Mankad, Neal P.; Peters, Jonas C.
Triggering N(2) uptake via redox-induced expulsion of coordinated NH(3) and N(2) silylation at trigonal bipyramidal iron.
Nature chemistry, 2010, 2, 558-565
1508043 CIFC92 H59 B F24 Fe N2 P3 SiP -112.6062; 17.7714; 20.2427
68.604; 81.731; 87.512
4178.33Lee, Yunho; Mankad, Neal P.; Peters, Jonas C.
Triggering N(2) uptake via redox-induced expulsion of coordinated NH(3) and N(2) silylation at trigonal bipyramidal iron.
Nature chemistry, 2010, 2, 558-565
1508044 CIFC39 H63 Fe N2 P3 Si2P 1 21/n 112.8552; 18.869; 17.1044
90; 92.116; 90
4146.1Lee, Yunho; Mankad, Neal P.; Peters, Jonas C.
Triggering N(2) uptake via redox-induced expulsion of coordinated NH(3) and N(2) silylation at trigonal bipyramidal iron.
Nature chemistry, 2010, 2, 558-565
1508045 CIFC60 H50 Fe P3 SiP 1 21/c 112.9352; 17.4246; 19.4686
90; 98.894; 90
4335.3Lee, Yunho; Mankad, Neal P.; Peters, Jonas C.
Triggering N(2) uptake via redox-induced expulsion of coordinated NH(3) and N(2) silylation at trigonal bipyramidal iron.
Nature chemistry, 2010, 2, 558-565
1508046 CIFC37 H57 Fe P3 SiP b c a16.0034; 17.018; 26.118
90; 90; 90
7113.1Lee, Yunho; Mankad, Neal P.; Peters, Jonas C.
Triggering N(2) uptake via redox-induced expulsion of coordinated NH(3) and N(2) silylation at trigonal bipyramidal iron.
Nature chemistry, 2010, 2, 558-565
1508047 CIFC68 H66 B F24 Fe N2 P3 SiP b c a26.3222; 19.5893; 27.3174
90; 90; 90
14085.8Lee, Yunho; Mankad, Neal P.; Peters, Jonas C.
Triggering N(2) uptake via redox-induced expulsion of coordinated NH(3) and N(2) silylation at trigonal bipyramidal iron.
Nature chemistry, 2010, 2, 558-565
1508048 CIFC36 H54 Fe N2 P3 SiP b c a16.085; 17.133; 25.58
90; 90; 90
7049Lee, Yunho; Mankad, Neal P.; Peters, Jonas C.
Triggering N(2) uptake via redox-induced expulsion of coordinated NH(3) and N(2) silylation at trigonal bipyramidal iron.
Nature chemistry, 2010, 2, 558-565
1508049 CIFC48 H78 Fe N2 Na O3 P3 SiR 3 :H17.9312; 17.9312; 13.1252
90; 90; 120
3654.73Lee, Yunho; Mankad, Neal P.; Peters, Jonas C.
Triggering N(2) uptake via redox-induced expulsion of coordinated NH(3) and N(2) silylation at trigonal bipyramidal iron.
Nature chemistry, 2010, 2, 558-565
1508050 CIFC64 H110 Fe N2 Na O11 P3 SiP 1 21/n 110.914; 27.66; 22.517
90; 90.607; 90
6797Lee, Yunho; Mankad, Neal P.; Peters, Jonas C.
Triggering N(2) uptake via redox-induced expulsion of coordinated NH(3) and N(2) silylation at trigonal bipyramidal iron.
Nature chemistry, 2010, 2, 558-565
1508051 CIFC86 H59 B F24 Fe N2 P3 SiP -121.1566; 21.4783; 22.3299
105.835; 115.183; 104.537
8010.2Lee, Yunho; Mankad, Neal P.; Peters, Jonas C.
Triggering N(2) uptake via redox-induced expulsion of coordinated NH(3) and N(2) silylation at trigonal bipyramidal iron.
Nature chemistry, 2010, 2, 558-565
1508052 CIFC55 H48 F3 Fe N2 O3 P2 S SiP -113.7155; 18.226; 21.536
95.141; 94.656; 95.372
5316.5Lee, Yunho; Mankad, Neal P.; Peters, Jonas C.
Triggering N(2) uptake via redox-induced expulsion of coordinated NH(3) and N(2) silylation at trigonal bipyramidal iron.
Nature chemistry, 2010, 2, 558-565
1508053 CIFC40 H60 N4 O2 SiP 1 21/n 113.1928; 20.6445; 15.0686
90; 105.754; 90
3949.9Xiong, Yun; Yao, Shenglai; Müller, Robert; Kaupp, Martin; Driess, Matthias
From silicon(II)-based dioxygen activation to adducts of elusive dioxasiliranes and sila-ureas stable at room temperature.
Nature chemistry, 2010, 2, 577-580
1508054 CIFC39.5 H56 N4 O2 SiP 1 21/n 117.0069; 13.0836; 18.0462
90; 108.997; 90
3796.8Xiong, Yun; Yao, Shenglai; Müller, Robert; Kaupp, Martin; Driess, Matthias
From silicon(II)-based dioxygen activation to adducts of elusive dioxasiliranes and sila-ureas stable at room temperature.
Nature chemistry, 2010, 2, 577-580
1508055 CIFC40 H60 N4 O2 SiP 1 21/n 112.1047; 16.482; 19.5115
90; 94.666; 90
3879.8Xiong, Yun; Yao, Shenglai; Müller, Robert; Kaupp, Martin; Driess, Matthias
From silicon(II)-based dioxygen activation to adducts of elusive dioxasiliranes and sila-ureas stable at room temperature.
Nature chemistry, 2010, 2, 577-580
1508056 CIFC36 H72 Mn2 N4 Na2 OP 1 21/n 111.985; 11.542; 15.364
90; 107.15; 90
2030.8Mulvey, Robert E.; Blair, Victoria L.; Clegg, William; Kennedy, Alan R.; Klett, Jan; Russo, Luca
Cleave and capture chemistry illustrated through bimetallic-induced fragmentation of tetrahydrofuran.
Nature chemistry, 2010, 2, 588-591
1508057 CIFC52 H108 Mg2 N8 Na2P 1 21/n 18.2736; 21.4955; 16.5688
90; 90.708; 90
2946.46Mulvey, Robert E.; Blair, Victoria L.; Clegg, William; Kennedy, Alan R.; Klett, Jan; Russo, Luca
Cleave and capture chemistry illustrated through bimetallic-induced fragmentation of tetrahydrofuran.
Nature chemistry, 2010, 2, 588-591
1508058 CIFC52.4 H108 Mn2 N8 Na2P 1 21/n 18.2875; 21.6756; 16.5068
90; 90.465; 90
2965.1Mulvey, Robert E.; Blair, Victoria L.; Clegg, William; Kennedy, Alan R.; Klett, Jan; Russo, Luca
Cleave and capture chemistry illustrated through bimetallic-induced fragmentation of tetrahydrofuran.
Nature chemistry, 2010, 2, 588-591
1508059 CIFC21 H20 Cl Mn N4 O9 ReP n n a9.489; 26.246; 9.898
90; 90; 90
2465.1Blake, Alexander J.; Champness, Neil R.; Easun, Timothy L.; Allan, David R.; Nowell, Harriott; George, Michael W.; Jia, Junhua; Sun, Xue-Zhong
Photoreactivity examined through incorporation in metal-organic frameworks.
Nature chemistry, 2010, 2, 688-694
1508060 CIFC21 H20 Cl Mn2 N4 O9P n n a9.281; 25.932; 9.709
90; 90; 90
2336.7Blake, Alexander J.; Champness, Neil R.; Easun, Timothy L.; Allan, David R.; Nowell, Harriott; George, Michael W.; Jia, Junhua; Sun, Xue-Zhong
Photoreactivity examined through incorporation in metal-organic frameworks.
Nature chemistry, 2010, 2, 688-694
1508061 CIFC21 H20 Cl Mn2 N4 O8P n n a9.062; 25.6; 9.618
90; 90; 90
2231.3Blake, Alexander J.; Champness, Neil R.; Easun, Timothy L.; Allan, David R.; Nowell, Harriott; George, Michael W.; Jia, Junhua; Sun, Xue-Zhong
Photoreactivity examined through incorporation in metal-organic frameworks.
Nature chemistry, 2010, 2, 688-694
1508062 CIFC41 H20 N11 ZnP c c m11.4341; 12.5791; 14.7759
90; 90; 90
2125.2Shimomura, Satoru; Higuchi, Masakazu; Matsuda, Ryotaro; Yoneda, Ko; Hijikata, Yuh; Kubota, Yoshiki; Mita, Yoshimi; Kim, Jungeun; Takata, Masaki; Kitagawa, Susumu
Selective sorption of oxygen and nitric oxide by an electron-donating flexible porous coordination polymer.
Nature chemistry, 2010, 2, 633-637
1508063 CIFC41 H16 N10 O ZnP c c m11.419; 12.67; 14.752
90; 90; 90
2134.3Shimomura, Satoru; Higuchi, Masakazu; Matsuda, Ryotaro; Yoneda, Ko; Hijikata, Yuh; Kubota, Yoshiki; Mita, Yoshimi; Kim, Jungeun; Takata, Masaki; Kitagawa, Susumu
Selective sorption of oxygen and nitric oxide by an electron-donating flexible porous coordination polymer.
Nature chemistry, 2010, 2, 633-637
1508064 CIFC42 H26 N10 ZnP c c m11.3749; 12.7239; 14.801
90; 90; 90
2142.2Shimomura, Satoru; Higuchi, Masakazu; Matsuda, Ryotaro; Yoneda, Ko; Hijikata, Yuh; Kubota, Yoshiki; Mita, Yoshimi; Kim, Jungeun; Takata, Masaki; Kitagawa, Susumu
Selective sorption of oxygen and nitric oxide by an electron-donating flexible porous coordination polymer.
Nature chemistry, 2010, 2, 633-637
1508065 CIFC46 H16 F8 N10 ZnP c c a22.857; 12.614; 14.604
90; 90; 90
4210.6Shimomura, Satoru; Higuchi, Masakazu; Matsuda, Ryotaro; Yoneda, Ko; Hijikata, Yuh; Kubota, Yoshiki; Mita, Yoshimi; Kim, Jungeun; Takata, Masaki; Kitagawa, Susumu
Selective sorption of oxygen and nitric oxide by an electron-donating flexible porous coordination polymer.
Nature chemistry, 2010, 2, 633-637
1508066 CIFC119.36 H115.1 B3 Cu3 F11.9 N20 O16P -116.844; 17.393; 20.257
84.064; 82.693; 87.212
5851.1Campbell, Victoria E.; de Hatten, Xavier; Delsuc, Nicolas; Kauffmann, Brice; Huc, Ivan; Nitschke, Jonathan R.
Cascading transformations within a dynamic self-assembled system.
Nature chemistry, 2010, 2, 684-687
1508067 CIFC109 H87.66666 B2 Cl1.33333 Cu F8.49333 N16 O17.33333 Zn2P 1 21/n 123.958; 26.469; 51.79
90; 94.12; 90
32757.5Campbell, Victoria E.; de Hatten, Xavier; Delsuc, Nicolas; Kauffmann, Brice; Huc, Ivan; Nitschke, Jonathan R.
Cascading transformations within a dynamic self-assembled system.
Nature chemistry, 2010, 2, 684-687
1508068 CIFC60 Cl6 Li SbA m m 212.297; 9.9506; 29.05
90; 90; 90
3554.6Aoyagi, Shinobu; Nishibori, Eiji; Sawa, Hiroshi; Sugimoto, Kunihisa; Takata, Masaki; Miyata, Yasumitsu; Kitaura, Ryo; Shinohara, Hisanori; Okada, Hiroshi; Sakai, Takeshi; Ono, Yoshihiro; Kawachi, Kazuhiko; Yokoo, Kuniyoshi; Ono, Shoichi; Omote, Kenji; Kasama, Yasuhiko; Ishikawa, Shinsuke; Komuro, Takashi; Tobita, Hiromi
A layered ionic crystal of polar Li@C(60) superatoms.
Nature chemistry, 2010, 2, 678-683
1508069 CIFC87 H54 F3 Fe N4 O9 SC 1 2/c 128.919; 25.0844; 26.4151
90; 100.103; 90
18864.8Zhu, Zhixue; Cardin, Christine J.; Gan, Yu; Colquhoun, Howard M.
Sequence-selective assembly of tweezer molecules on linear templates enables frameshift-reading of sequence information.
Nature chemistry, 2010, 2, 653-660
1508070 CIFC96 H55 N3 O14 S2I 1 2/a 128.5423; 22.2297; 28.8082
90; 112.759; 90
16855.3Zhu, Zhixue; Cardin, Christine J.; Gan, Yu; Colquhoun, Howard M.
Sequence-selective assembly of tweezer molecules on linear templates enables frameshift-reading of sequence information.
Nature chemistry, 2010, 2, 653-660
1508071 CIFC32 H40 N4 UP n m a17.482; 12.657; 12.915
90; 90; 90
2857.7Thomson, Robert K.; Cantat, Thibault; Scott, Brian L.; Morris, David E.; Batista, Enrique R.; Kiplinger, Jaqueline L.
Uranium azide photolysis results in C-H bond activation and provides evidence for a terminal uranium nitride.
Nature chemistry, 2010, 2, 723-729
1508072 CIFC26 H48 N4 Si2 UP c 21 b16.886; 16.953; 20.895
90; 90; 90
5982Thomson, Robert K.; Cantat, Thibault; Scott, Brian L.; Morris, David E.; Batista, Enrique R.; Kiplinger, Jaqueline L.
Uranium azide photolysis results in C-H bond activation and provides evidence for a terminal uranium nitride.
Nature chemistry, 2010, 2, 723-729
1508073 CIFC28 H52 N4 Si2 UP -19.5877; 10.3919; 18.0297
75.277; 88.379; 63.624
1549.1Thomson, Robert K.; Cantat, Thibault; Scott, Brian L.; Morris, David E.; Batista, Enrique R.; Kiplinger, Jaqueline L.
Uranium azide photolysis results in C-H bond activation and provides evidence for a terminal uranium nitride.
Nature chemistry, 2010, 2, 723-729
1508074 CIFC26 H48 N2 Si2 UI 41/a :231.4069; 31.4069; 23.029
90; 90; 90
22716Thomson, Robert K.; Cantat, Thibault; Scott, Brian L.; Morris, David E.; Batista, Enrique R.; Kiplinger, Jaqueline L.
Uranium azide photolysis results in C-H bond activation and provides evidence for a terminal uranium nitride.
Nature chemistry, 2010, 2, 723-729
1508076 CIFC46 H52 B F15 N4 Si2 UP 1 21/n 113.6355; 25.5997; 14.2579
90; 100.183; 90
4898.5Thomson, Robert K.; Cantat, Thibault; Scott, Brian L.; Morris, David E.; Batista, Enrique R.; Kiplinger, Jaqueline L.
Uranium azide photolysis results in C-H bond activation and provides evidence for a terminal uranium nitride.
Nature chemistry, 2010, 2, 723-729
1508078 CIFC30 H30 Re3 SmR -3 :H41.437; 41.437; 7.633
90; 90; 120
11350.2Butovskii, Mikhail V.; Döring, Christian; Bezugly, Viktor; Wagner, Frank R.; Grin, Yuri; Kempe, Rhett
Molecules containing rare-earth atoms solely bonded by transition metals.
Nature chemistry, 2010, 2, 741-744
1508080 CIFC30 H30 Lu Re3R -3 :H41.12; 41.12; 7.648
90; 90; 120
11199.1Butovskii, Mikhail V.; Döring, Christian; Bezugly, Viktor; Wagner, Frank R.; Grin, Yuri; Kempe, Rhett
Molecules containing rare-earth atoms solely bonded by transition metals.
Nature chemistry, 2010, 2, 741-744
1508081 CIFC30 H30 La Re3R -3 :H41.647; 41.647; 7.612
90; 90; 120
11434Butovskii, Mikhail V.; Döring, Christian; Bezugly, Viktor; Wagner, Frank R.; Grin, Yuri; Kempe, Rhett
Molecules containing rare-earth atoms solely bonded by transition metals.
Nature chemistry, 2010, 2, 741-744
1508082 CIFC55 H62 La2 O2 Re4P 1 21/n 112.242; 21.612; 17.762
90; 94.794; 90
4682.9Butovskii, Mikhail V.; Döring, Christian; Bezugly, Viktor; Wagner, Frank R.; Grin, Yuri; Kempe, Rhett
Molecules containing rare-earth atoms solely bonded by transition metals.
Nature chemistry, 2010, 2, 741-744
1508083 CIFC20 H18 Cl N2 O4P 1 21/c 113.5724; 19.5079; 7.0896
90; 98.542; 90
1856.28Raup, Dustin E. A.; Cardinal-David, Benoit; Holte, Dane; Scheidt, Karl A.
Cooperative catalysis by carbenes and Lewis acids in a highly stereoselective route to gamma-lactams.
Nature chemistry, 2010, 2, 766-771
1508084 CIFC25 H21 Br N2 O3P 21 21 2110.2485; 11.2076; 18.7161
90; 90; 90
2149.75Antonchick, Andrey P.; Gerding-Reimers, Claas; Catarinella, Mario; Schürmann, Markus; Preut, Hans; Ziegler, Slava; Rauh, Daniel; Waldmann, Herbert
Highly enantioselective synthesis and cellular evaluation of spirooxindoles inspired by natural products.
Nature chemistry, 2010, 2, 735-740
1508085 CIFC20 H36 F12 Fe N5 O14 S4 ScP 1 21/n 112.3656; 16.4492; 19.9866
90; 94.337; 90
4053.7Fukuzumi, Shunichi; Morimoto, Yuma; Kotani, Hiroaki; Naumov, Pance; Lee, Yong-Min; Nam, Wonwoo
Crystal structure of a metal ion-bound oxoiron(IV) complex and implications for biological electron transfer.
Nature chemistry, 2010, 2, 756-759
1508086 CIFC38 H8 Cu2 N2 O12I 41 2 215.7125; 15.7125; 47.3137
90; 90; 90
11680.9Ma, Liqing; Falkowski, Joseph M.; Abney, Carter; Lin, Wenbin
A series of isoreticular chiral metal-organic frameworks as a tunable platform for asymmetric catalysis.
Nature chemistry, 2010, 2, 838-846
1508087 CIFC36 H26 Cu2 O12I 41 2 221.4169; 21.4169; 57.6768
90; 90; 90
26455.4Ma, Liqing; Falkowski, Joseph M.; Abney, Carter; Lin, Wenbin
A series of isoreticular chiral metal-organic frameworks as a tunable platform for asymmetric catalysis.
Nature chemistry, 2010, 2, 838-846
1508088 CIFC32 H16 Cu2 O12I 41 2 221.049; 21.049; 57.878
90; 90; 90
25643Ma, Liqing; Falkowski, Joseph M.; Abney, Carter; Lin, Wenbin
A series of isoreticular chiral metal-organic frameworks as a tunable platform for asymmetric catalysis.
Nature chemistry, 2010, 2, 838-846
1508089 CIFC48 H26 Cu2 O12I 41 2 223.849; 23.849; 73.11
90; 90; 90
41583Ma, Liqing; Falkowski, Joseph M.; Abney, Carter; Lin, Wenbin
A series of isoreticular chiral metal-organic frameworks as a tunable platform for asymmetric catalysis.
Nature chemistry, 2010, 2, 838-846
1508090 CIFC60 H32 Cu2 O12I 41 2 230.9491; 30.9491; 80.725
90; 90; 90
77322Ma, Liqing; Falkowski, Joseph M.; Abney, Carter; Lin, Wenbin
A series of isoreticular chiral metal-organic frameworks as a tunable platform for asymmetric catalysis.
Nature chemistry, 2010, 2, 838-846
1508091 CIFC56 H32 Cu2 O12I 41 2 230.7816; 30.7816; 81.603
90; 90; 90
77319Ma, Liqing; Falkowski, Joseph M.; Abney, Carter; Lin, Wenbin
A series of isoreticular chiral metal-organic frameworks as a tunable platform for asymmetric catalysis.
Nature chemistry, 2010, 2, 838-846
1508092 CIFC115 H154 N24 O10R -3 c :H20.043; 20.043; 55.912
90; 90; 120
19452Hasell, Tom; Wu, Xiaofeng; Jones, James T. A.; Bacsa, John; Steiner, Alexander; Mitra, Tamoghna; Trewin, Abbie; Adams, Dave J.; Cooper, Andrew I.
Triply interlocked covalent organic cages.
Nature chemistry, 2010, 2, 750-755
1508093 CIFC73.5 H87 Cl15 N12C 2 2 2116.861; 32.059; 29.48
90; 90; 90
15935Hasell, Tom; Wu, Xiaofeng; Jones, James T. A.; Bacsa, John; Steiner, Alexander; Mitra, Tamoghna; Trewin, Abbie; Adams, Dave J.; Cooper, Andrew I.
Triply interlocked covalent organic cages.
Nature chemistry, 2010, 2, 750-755
1508094 CIFC120 H124 N24C 1 2/c 125.511; 16.802; 24.782
90; 101.733; 90
10401Hasell, Tom; Wu, Xiaofeng; Jones, James T. A.; Bacsa, John; Steiner, Alexander; Mitra, Tamoghna; Trewin, Abbie; Adams, Dave J.; Cooper, Andrew I.
Triply interlocked covalent organic cages.
Nature chemistry, 2010, 2, 750-755
1508095 CIFC84 H96 N12P -110.8757; 14.151; 26.065
92.55; 99.061; 104.57
3819.1Hasell, Tom; Wu, Xiaofeng; Jones, James T. A.; Bacsa, John; Steiner, Alexander; Mitra, Tamoghna; Trewin, Abbie; Adams, Dave J.; Cooper, Andrew I.
Triply interlocked covalent organic cages.
Nature chemistry, 2010, 2, 750-755
1508096 CIFC26 H16 Co N10 S2F m -3 m37.461; 37.461; 37.461
90; 90; 90
52570Inokuma, Yasuhide; Arai, Tatsuhiko; Fujita, Makoto
Networked molecular cages as crystalline sponges for fullerenes and other guests.
Nature chemistry, 2010, 2, 780-783
1508097 CIFC102 H64 Co3 N30 S22P 42/m n m26.405; 26.405; 36.631
90; 90; 90
25540Inokuma, Yasuhide; Arai, Tatsuhiko; Fujita, Makoto
Networked molecular cages as crystalline sponges for fullerenes and other guests.
Nature chemistry, 2010, 2, 780-783
1508098 CIFC80 H64.5 Co N14.5 S2F d -3 c :274.972; 74.972; 74.972
90; 90; 90
421403Inokuma, Yasuhide; Arai, Tatsuhiko; Fujita, Makoto
Networked molecular cages as crystalline sponges for fullerenes and other guests.
Nature chemistry, 2010, 2, 780-783
1508099 CIFC132 H160 N48 O36 Pd6 S16I 41/a :227.886; 27.886; 30.086
90; 90; 90
23396Inokuma, Yasuhide; Arai, Tatsuhiko; Fujita, Makoto
Networked molecular cages as crystalline sponges for fullerenes and other guests.
Nature chemistry, 2010, 2, 780-783
1508100 CIFC84 H64 F24 N4 P4 S24C 1 c 128.643; 14.21; 24.502
90; 99.38; 90
9839Spruell, Jason M.; Coskun, Ali; Friedman, Douglas C.; Forgan, Ross S.; Sarjeant, Amy A.; Trabolsi, Ali; Fahrenbach, Albert C.; Barin, Gokhan; Paxton, Walter F.; Dey, Sanjeev K.; Olson, Mark A.; Benítez, Diego; Tkatchouk, Ekaterina; Colvin, Michael T.; Carmielli, Raanan; Caldwell, Stuart T.; Rosair, Georgina M.; Hewage, Shanika Gunatilaka; Duclairoir, Florence; Seymour, Jennifer L.; Slawin, Alexandra M. Z.; Goddard, 3rd, William A; Wasielewski, Michael R.; Cooke, Graeme; Stoddart, J. Fraser
Highly stable tetrathiafulvalene radical dimers in [3]catenanes.
Nature chemistry, 2010, 2, 870-879
1508101 CIFC121 H135.5 F24 N6.5 O20 P4 S8P 1 21/c 127.049; 16.3551; 29.944
90; 92.265; 90
13237Spruell, Jason M.; Coskun, Ali; Friedman, Douglas C.; Forgan, Ross S.; Sarjeant, Amy A.; Trabolsi, Ali; Fahrenbach, Albert C.; Barin, Gokhan; Paxton, Walter F.; Dey, Sanjeev K.; Olson, Mark A.; Benítez, Diego; Tkatchouk, Ekaterina; Colvin, Michael T.; Carmielli, Raanan; Caldwell, Stuart T.; Rosair, Georgina M.; Hewage, Shanika Gunatilaka; Duclairoir, Florence; Seymour, Jennifer L.; Slawin, Alexandra M. Z.; Goddard, 3rd, William A; Wasielewski, Michael R.; Cooke, Graeme; Stoddart, J. Fraser
Highly stable tetrathiafulvalene radical dimers in [3]catenanes.
Nature chemistry, 2010, 2, 870-879
1508102 CIFC106 H117 F24 N7 O16 P4 S8P -111.144; 14.355; 19.592
86.784; 87.155; 75.382
3026Spruell, Jason M.; Coskun, Ali; Friedman, Douglas C.; Forgan, Ross S.; Sarjeant, Amy A.; Trabolsi, Ali; Fahrenbach, Albert C.; Barin, Gokhan; Paxton, Walter F.; Dey, Sanjeev K.; Olson, Mark A.; Benítez, Diego; Tkatchouk, Ekaterina; Colvin, Michael T.; Carmielli, Raanan; Caldwell, Stuart T.; Rosair, Georgina M.; Hewage, Shanika Gunatilaka; Duclairoir, Florence; Seymour, Jennifer L.; Slawin, Alexandra M. Z.; Goddard, 3rd, William A; Wasielewski, Michael R.; Cooke, Graeme; Stoddart, J. Fraser
Highly stable tetrathiafulvalene radical dimers in [3]catenanes.
Nature chemistry, 2010, 2, 870-879
1508103 CIFC100 H108 Cl F24 N4 O20 P4 S8C 2 2 2113.4168; 37.385; 27.8719
90; 90; 90
13980.2Spruell, Jason M.; Coskun, Ali; Friedman, Douglas C.; Forgan, Ross S.; Sarjeant, Amy A.; Trabolsi, Ali; Fahrenbach, Albert C.; Barin, Gokhan; Paxton, Walter F.; Dey, Sanjeev K.; Olson, Mark A.; Benítez, Diego; Tkatchouk, Ekaterina; Colvin, Michael T.; Carmielli, Raanan; Caldwell, Stuart T.; Rosair, Georgina M.; Hewage, Shanika Gunatilaka; Duclairoir, Florence; Seymour, Jennifer L.; Slawin, Alexandra M. Z.; Goddard, 3rd, William A; Wasielewski, Michael R.; Cooke, Graeme; Stoddart, J. Fraser
Highly stable tetrathiafulvalene radical dimers in [3]catenanes.
Nature chemistry, 2010, 2, 870-879
1508104 CIFC109 H133 Cl4 F12 N9 O43 P2 S8P -114.1826; 21.4251; 22.9043
95.326; 95.544; 92.596
6887Spruell, Jason M.; Coskun, Ali; Friedman, Douglas C.; Forgan, Ross S.; Sarjeant, Amy A.; Trabolsi, Ali; Fahrenbach, Albert C.; Barin, Gokhan; Paxton, Walter F.; Dey, Sanjeev K.; Olson, Mark A.; Benítez, Diego; Tkatchouk, Ekaterina; Colvin, Michael T.; Carmielli, Raanan; Caldwell, Stuart T.; Rosair, Georgina M.; Hewage, Shanika Gunatilaka; Duclairoir, Florence; Seymour, Jennifer L.; Slawin, Alexandra M. Z.; Goddard, 3rd, William A; Wasielewski, Michael R.; Cooke, Graeme; Stoddart, J. Fraser
Highly stable tetrathiafulvalene radical dimers in [3]catenanes.
Nature chemistry, 2010, 2, 870-879
1508105 CIFC31 H48 Al I2 N3P 1 21/c 135.768; 10.242; 18.497
90; 96.92; 90
6727Bonyhady, Simon J.; Collis, David; Frenking, Gernot; Holzmann, Nicole; Jones, Cameron; Stasch, Andreas
Synthesis of a stable adduct of dialane(4) (Al2H4) via hydrogenation of a magnesium(I) dimer.
Nature chemistry, 2010, 2, 865-869
1508106 CIFC62 H96 Al2 I2 N6P 1 21/n 110.045; 20.189; 15.403
90; 97.87; 90
3094.3Bonyhady, Simon J.; Collis, David; Frenking, Gernot; Holzmann, Nicole; Jones, Cameron; Stasch, Andreas
Synthesis of a stable adduct of dialane(4) (Al2H4) via hydrogenation of a magnesium(I) dimer.
Nature chemistry, 2010, 2, 865-869
1508107 CIFC86 H120 Al2 I2 N6P -111.992; 13.192; 15.969
111.76; 93.91; 114.89
2051.6Bonyhady, Simon J.; Collis, David; Frenking, Gernot; Holzmann, Nicole; Jones, Cameron; Stasch, Andreas
Synthesis of a stable adduct of dialane(4) (Al2H4) via hydrogenation of a magnesium(I) dimer.
Nature chemistry, 2010, 2, 865-869
1508108 CIFC46 H60 Mg2 N4P 1 2/n 113.475; 8.2292; 19.771
90; 101.7; 90
2146.8Bonyhady, Simon J.; Collis, David; Frenking, Gernot; Holzmann, Nicole; Jones, Cameron; Stasch, Andreas
Synthesis of a stable adduct of dialane(4) (Al2H4) via hydrogenation of a magnesium(I) dimer.
Nature chemistry, 2010, 2, 865-869
1508109 CIFC54 H76 Al2 N4P 1 21/n 113.3869; 12.1848; 15.7738
90; 97.262; 90
2552.33Bonyhady, Simon J.; Collis, David; Frenking, Gernot; Holzmann, Nicole; Jones, Cameron; Stasch, Andreas
Synthesis of a stable adduct of dialane(4) (Al2H4) via hydrogenation of a magnesium(I) dimer.
Nature chemistry, 2010, 2, 865-869
1508110 CIFC48 H66 Mg2 N4 O SiP 1 21/n 112.145; 28.154; 13.801
90; 99.86; 90
4649.3Bonyhady, Simon J.; Collis, David; Frenking, Gernot; Holzmann, Nicole; Jones, Cameron; Stasch, Andreas
Synthesis of a stable adduct of dialane(4) (Al2H4) via hydrogenation of a magnesium(I) dimer.
Nature chemistry, 2010, 2, 865-869
1508111 CIFC31 H50 Al N3P c c n19.074; 21.504; 14.858
90; 90; 90
6094Bonyhady, Simon J.; Collis, David; Frenking, Gernot; Holzmann, Nicole; Jones, Cameron; Stasch, Andreas
Synthesis of a stable adduct of dialane(4) (Al2H4) via hydrogenation of a magnesium(I) dimer.
Nature chemistry, 2010, 2, 865-869
1508112 CIFC70 H112 Al2 N4P -110.606; 11.9107; 15.3949
71.643; 77.501; 67.68
1697.09Bonyhady, Simon J.; Collis, David; Frenking, Gernot; Holzmann, Nicole; Jones, Cameron; Stasch, Andreas
Synthesis of a stable adduct of dialane(4) (Al2H4) via hydrogenation of a magnesium(I) dimer.
Nature chemistry, 2010, 2, 865-869
1508113 CIFC73 H93 Al2 N4P -119.2949; 19.4205; 19.6592
82.645; 67.092; 79.72
6662.8Bonyhady, Simon J.; Collis, David; Frenking, Gernot; Holzmann, Nicole; Jones, Cameron; Stasch, Andreas
Synthesis of a stable adduct of dialane(4) (Al2H4) via hydrogenation of a magnesium(I) dimer.
Nature chemistry, 2010, 2, 865-869
1508114 CIFC70 H100 Al2 N4P 1 21/c 112.7841; 14.7611; 17.1527
90; 91.847; 90
3235.16Bonyhady, Simon J.; Collis, David; Frenking, Gernot; Holzmann, Nicole; Jones, Cameron; Stasch, Andreas
Synthesis of a stable adduct of dialane(4) (Al2H4) via hydrogenation of a magnesium(I) dimer.
Nature chemistry, 2010, 2, 865-869
1508115 CIFC62 H98 Al2 N6P 1 21/n 111.729; 15.039; 17.886
90; 104.89; 90
3049Bonyhady, Simon J.; Collis, David; Frenking, Gernot; Holzmann, Nicole; Jones, Cameron; Stasch, Andreas
Synthesis of a stable adduct of dialane(4) (Al2H4) via hydrogenation of a magnesium(I) dimer.
Nature chemistry, 2010, 2, 865-869
1508117 CIFC20 H19 Br O2P 1 21/c 111.98; 6.098; 23.525
90; 93.43; 90
1715.5Ito, Hajime; Kunii, Shun; Sawamura, Masaya
Direct enantio-convergent transformation of racemic substrates without racemization or symmetrization.
Nature chemistry, 2010, 2, 972-976
1508119 CIFC192 H96 Cu24 O120P -124.3386; 24.4267; 25.442
112.19; 115.547; 98.071
11774Li, Jian-Rong; Zhou, Hong-Cai
Bridging-ligand-substitution strategy for the preparation of metal-organic polyhedra.
Nature chemistry, 2010, 2, 893-898
1508120 CIFC32 H26 Cu2 N4 O18P -16.5901; 10.8797; 12.487
93.149; 103.646; 94.092
865.4Li, Jian-Rong; Zhou, Hong-Cai
Bridging-ligand-substitution strategy for the preparation of metal-organic polyhedra.
Nature chemistry, 2010, 2, 893-898
1508121 CIFC288 H288 Cu24 O120I 4/m m m29.296; 29.296; 41.22
90; 90; 90
35377Li, Jian-Rong; Zhou, Hong-Cai
Bridging-ligand-substitution strategy for the preparation of metal-organic polyhedra.
Nature chemistry, 2010, 2, 893-898
1508122 CIFC192 H96 Cu24 O144I 4/m25.8693; 25.8693; 39.125
90; 90; 90
26183Li, Jian-Rong; Zhou, Hong-Cai
Bridging-ligand-substitution strategy for the preparation of metal-organic polyhedra.
Nature chemistry, 2010, 2, 893-898
1508123 CIFC192 H72 Cu24 O192 S24I 4/m29.044; 29.044; 41.72
90; 90; 90
35193Li, Jian-Rong; Zhou, Hong-Cai
Bridging-ligand-substitution strategy for the preparation of metal-organic polyhedra.
Nature chemistry, 2010, 2, 893-898
1508124 CIFC168 H120 Cu12 O60P -126.687; 26.714; 28.012
67.565; 69.257; 76.221
17139Li, Jian-Rong; Zhou, Hong-Cai
Bridging-ligand-substitution strategy for the preparation of metal-organic polyhedra.
Nature chemistry, 2010, 2, 893-898
1508125 CIFC288 H216 Cu24 O120F d d d :228.083; 59.645; 82.288
90; 90; 90
137833Li, Jian-Rong; Zhou, Hong-Cai
Bridging-ligand-substitution strategy for the preparation of metal-organic polyhedra.
Nature chemistry, 2010, 2, 893-898
1508126 CIFC192 H98 Cu24 O128C 1 2/c 135.49; 32.46; 35.61
90; 92.42; 90
40986Li, Jian-Rong; Zhou, Hong-Cai
Bridging-ligand-substitution strategy for the preparation of metal-organic polyhedra.
Nature chemistry, 2010, 2, 893-898
1508127 CIFC108 H76 Cu4 N4 O20P 1 21/n 118.0347; 31.135; 27.1691
90; 105.587; 90
14694.7Li, Jian-Rong; Zhou, Hong-Cai
Bridging-ligand-substitution strategy for the preparation of metal-organic polyhedra.
Nature chemistry, 2010, 2, 893-898
1508128 CIFC168 H84 Cu12 N12 O60P -120.014; 20.977; 22.605
117.518; 92.93; 110.47
7622Li, Jian-Rong; Zhou, Hong-Cai
Bridging-ligand-substitution strategy for the preparation of metal-organic polyhedra.
Nature chemistry, 2010, 2, 893-898
1508129 CIFC98 H126P -110.5799; 10.7732; 19.6616
84.7319; 75.3405; 87.4321
2158.4Chalifoux, Wesley A.; Tykwinski, Rik R.
Synthesis of polyynes to model the sp-carbon allotrope carbyne.
Nature chemistry, 2010, 2, 967-971
1508130 CIFC70 H98 SiP -110.2575; 14.6634; 21.9595
76.52; 89.555; 86.272
3205Chalifoux, Wesley A.; Tykwinski, Rik R.
Synthesis of polyynes to model the sp-carbon allotrope carbyne.
Nature chemistry, 2010, 2, 967-971
1508131 CIFC480 H192 Cu24 O120F m -3 m59.872; 59.872; 59.872
90; 90; 90
214621Farha, Omar K.; Yazaydın, A Özgür; Eryazici, Ibrahim; Malliakas, Christos D.; Hauser, Brad G.; Kanatzidis, Mercouri G.; Nguyen, SonBinh T; Snurr, Randall Q.; Hupp, Joseph T.
De novo synthesis of a metal-organic framework material featuring ultrahigh surface area and gas storage capacities.
Nature chemistry, 2010, 2, 944-948
1508132 CIFC34 H33 B TeP 1 21/c 115.3549; 12.2755; 17.3029
90; 123.819; 90
2709.6Zhao, Haiyan; Gabbaï, François P
A bidentate Lewis acid with a telluronium ion as an anion-binding site.
Nature chemistry, 2010, 2, 984-990
1508133 CIFC35 H36 B F TeP 1 21/n 19.0099; 24.019; 13.208
90; 93.774; 90
2852.1Zhao, Haiyan; Gabbaï, François P
A bidentate Lewis acid with a telluronium ion as an anion-binding site.
Nature chemistry, 2010, 2, 984-990
1508134 CIFC36 H36 B F3 O3 S TeP 1 21/c 18.4011; 18.828; 21.449
90; 97.903; 90
3360.5Zhao, Haiyan; Gabbaï, François P
A bidentate Lewis acid with a telluronium ion as an anion-binding site.
Nature chemistry, 2010, 2, 984-990
1508136 CIFC34 H33 B SP 1 21/n 115.337; 12.0381; 15.458
90; 111.115; 90
2662.4Zhao, Haiyan; Gabbaï, François P
A bidentate Lewis acid with a telluronium ion as an anion-binding site.
Nature chemistry, 2010, 2, 984-990
1508138 CIFC35 H36 B F SP 1 21/n 110.757; 8.8417; 30.186
90; 94.8; 90
2860.9Zhao, Haiyan; Gabbaï, François P
A bidentate Lewis acid with a telluronium ion as an anion-binding site.
Nature chemistry, 2010, 2, 984-990
1508139 CIFC36 H36 B F3 O3 S2P -18.632; 10.482; 18.755
90.939; 102.507; 100.441
1626.5Zhao, Haiyan; Gabbaï, François P
A bidentate Lewis acid with a telluronium ion as an anion-binding site.
Nature chemistry, 2010, 2, 984-990
1508140 CIFC17 H25 N O2P 1 21 110.2338; 6.605; 11.9985
90; 94.388; 90
808.65Denmark, Scott E.; Wilson, Tyler W.
N-silyl oxyketene imines are underused yet highly versatile reagents for catalytic asymmetric synthesis.
Nature chemistry, 2010, 2, 937-943
1508141 CIFC72 H82 Au2 Cl2 O4 P2I 1 2/a 119.59; 22.495; 20.59
90; 105.26; 90
8754de Silva, Namal; Ha, Jeong-Myeong; Solovyov, Andrew; Nigra, Michael M.; Ogino, Isao; Yeh, Sheila W.; Durkin, Kathleen A.; Katz, Alexander
A bioinspired approach for controlling accessibility in calix[4]arene-bound metal cluster catalysts.
Nature chemistry, 2010, 2, 1062-1068
1508142 CIFC76 H90 Au2 Cl2 O4 P2P 1 21/c 114.6239; 25.8803; 21.5065
90; 108.762; 90
7707.1de Silva, Namal; Ha, Jeong-Myeong; Solovyov, Andrew; Nigra, Michael M.; Ogino, Isao; Yeh, Sheila W.; Durkin, Kathleen A.; Katz, Alexander
A bioinspired approach for controlling accessibility in calix[4]arene-bound metal cluster catalysts.
Nature chemistry, 2010, 2, 1062-1068
1508143 CIFC66 H85 Au Cl O4 PP 1 21/c 119.695; 14.974; 20.876
90; 96.29; 90
6120de Silva, Namal; Ha, Jeong-Myeong; Solovyov, Andrew; Nigra, Michael M.; Ogino, Isao; Yeh, Sheila W.; Durkin, Kathleen A.; Katz, Alexander
A bioinspired approach for controlling accessibility in calix[4]arene-bound metal cluster catalysts.
Nature chemistry, 2010, 2, 1062-1068
1508144 CIFC76 H90 O4 P2P -113.9923; 15.1673; 17.3281
83.207; 81.568; 63.915
3261.2de Silva, Namal; Ha, Jeong-Myeong; Solovyov, Andrew; Nigra, Michael M.; Ogino, Isao; Yeh, Sheila W.; Durkin, Kathleen A.; Katz, Alexander
A bioinspired approach for controlling accessibility in calix[4]arene-bound metal cluster catalysts.
Nature chemistry, 2010, 2, 1062-1068
1508145 CIFC64 H64 Br2 O16P 1 21/n 114.6299; 22.0132; 17.1801
90; 90.557; 90
5532.6Ohta, Eisuke; Sato, Hiroyasu; Ando, Shinji; Kosaka, Atsuko; Fukushima, Takanori; Hashizume, Daisuke; Yamasaki, Mikio; Hasegawa, Kimiko; Muraoka, Azusa; Ushiyama, Hiroshi; Yamashita, Koichi; Aida, Takuzo
Redox-responsive molecular helices with highly condensed π-clouds.
Nature chemistry, 2011, 3, 68-73
1508146 CIFC71 H74.5 N5.5 O20C 1 2 126.465; 13.3084; 20.9193
90; 116.126; 90
6615.1Ohta, Eisuke; Sato, Hiroyasu; Ando, Shinji; Kosaka, Atsuko; Fukushima, Takanori; Hashizume, Daisuke; Yamasaki, Mikio; Hasegawa, Kimiko; Muraoka, Azusa; Ushiyama, Hiroshi; Yamashita, Koichi; Aida, Takuzo
Redox-responsive molecular helices with highly condensed π-clouds.
Nature chemistry, 2011, 3, 68-73
1508147 CIFC69 H71.5 F6 N4.5 O20 SbP 1 21/c 112.6264; 22.3733; 25.1262
90; 102.392; 90
6932.65Ohta, Eisuke; Sato, Hiroyasu; Ando, Shinji; Kosaka, Atsuko; Fukushima, Takanori; Hashizume, Daisuke; Yamasaki, Mikio; Hasegawa, Kimiko; Muraoka, Azusa; Ushiyama, Hiroshi; Yamashita, Koichi; Aida, Takuzo
Redox-responsive molecular helices with highly condensed π-clouds.
Nature chemistry, 2011, 3, 68-73
1508148 CIFC70 H97 Li N8 O9 UP -112.9187; 16.9057; 17.0274
107.186; 96.271; 106.235
3335.6Arnold, Polly L.; Pécharman, Anne-Frédérique; Hollis, Emmalina; Yahia, Ahmed; Maron, Laurent; Parsons, Simon; Love, Jason B.
Uranyl oxo activation and functionalization by metal cation coordination.
Nature chemistry, 2010, 2, 1056-1061
1508149 CIFC87 H86 Li2 N17 O2 UC 1 c 114.0928; 24.2786; 22.7601
90; 90.769; 90
7786.7Arnold, Polly L.; Pécharman, Anne-Frédérique; Hollis, Emmalina; Yahia, Ahmed; Maron, Laurent; Parsons, Simon; Love, Jason B.
Uranyl oxo activation and functionalization by metal cation coordination.
Nature chemistry, 2010, 2, 1056-1061
1508150 CIFC92 H90 Li3 N18 O2 UP -115.0681; 15.9581; 19.1549
94.953; 90.628; 114.436
4172.18Arnold, Polly L.; Pécharman, Anne-Frédérique; Hollis, Emmalina; Yahia, Ahmed; Maron, Laurent; Parsons, Simon; Love, Jason B.
Uranyl oxo activation and functionalization by metal cation coordination.
Nature chemistry, 2010, 2, 1056-1061
1508151 CIFC76 H114 Li4 N9 O9 Si2 UP -112.2088; 16.2176; 20.9697
75.391; 86.593; 80.083
3957.1Arnold, Polly L.; Pécharman, Anne-Frédérique; Hollis, Emmalina; Yahia, Ahmed; Maron, Laurent; Parsons, Simon; Love, Jason B.
Uranyl oxo activation and functionalization by metal cation coordination.
Nature chemistry, 2010, 2, 1056-1061
1508152 CIFC23.75 H44.5 Cl4.5 Mo N P2C 1 2 128.6387; 14.9963; 19.6011
90; 125.48; 90
6855.1Arashiba, Kazuya; Miyake, Yoshihiro; Nishibayashi, Yoshiaki
A molybdenum complex bearing PNP-type pincer ligands leads to the catalytic reduction of dinitrogen into ammonia.
Nature chemistry, 2011, 3, 120-125
1508153 CIFC52 H100 Mo2 N12 P4R -3 c :H36.3354; 36.3354; 24.3428
90; 90; 120
27833.1Arashiba, Kazuya; Miyake, Yoshihiro; Nishibayashi, Yoshiaki
A molybdenum complex bearing PNP-type pincer ligands leads to the catalytic reduction of dinitrogen into ammonia.
Nature chemistry, 2011, 3, 120-125
1508154 CIFC56 H100 Mo2 N4 O4 P4R -3 c :H36.1127; 36.1127; 24.6029
90; 90; 120
27786.7Arashiba, Kazuya; Miyake, Yoshihiro; Nishibayashi, Yoshiaki
A molybdenum complex bearing PNP-type pincer ligands leads to the catalytic reduction of dinitrogen into ammonia.
Nature chemistry, 2011, 3, 120-125
1508155 CIFC31 H53 B F5 Mo N4 P2C 1 2/c 134.4412; 11.1522; 20.6925
90; 111.63; 90
7388.2Arashiba, Kazuya; Miyake, Yoshihiro; Nishibayashi, Yoshiaki
A molybdenum complex bearing PNP-type pincer ligands leads to the catalytic reduction of dinitrogen into ammonia.
Nature chemistry, 2011, 3, 120-125
1508157 CIFC19 H29 Br O3P -19.5083; 9.6863; 10.9481
68.563; 85.847; 84.917
934Bolton, Onas; Lee, Kangwon; Kim, Hyong-Jun; Lin, Kevin Y.; Kim, Jinsang
Activating efficient phosphorescence from purely organic materials by crystal design.
Nature chemistry, 2011, 3, 205-210
1508159 CIFC18 H28 Br2 O2P -16.8032; 8.117; 9.659
108.27; 106.91; 96.94
471.2Bolton, Onas; Lee, Kangwon; Kim, Hyong-Jun; Lin, Kevin Y.; Kim, Jinsang
Activating efficient phosphorescence from purely organic materials by crystal design.
Nature chemistry, 2011, 3, 205-210
1508163 CIFC168 H176 Cl F49 Fe5 N32 O18.5 P8P 1 21/c 123.444; 36.333; 29.094
90; 105.335; 90
23900Ayme, Jean-François; Beves, Jonathon E.; Leigh, David A.; McBurney, Roy T.; Rissanen, Kari; Schultz, David
A synthetic molecular pentafoil knot.
Nature chemistry, 2012, 4, 15-20
1508164 CIFC20 H30 OP 21 21 219.8261; 11.6102; 14.6754
90; 90; 90
1674.21Mendoza, Abraham; Ishihara, Yoshihiro; Baran, Phil S.
Scalable enantioselective total synthesis of taxanes.
Nature chemistry, 2012, 4, 21-25
1508165 CIFC19 H28 O2P 1 21 17.7453; 10.3009; 9.7366
90; 94.175; 90
774.76Mendoza, Abraham; Ishihara, Yoshihiro; Baran, Phil S.
Scalable enantioselective total synthesis of taxanes.
Nature chemistry, 2012, 4, 21-25
1508166 CIFC120 H76 B2 F48 O4 Pd4C 1 2/c 128.2551; 19.2999; 21.1845
90; 97.2296; 90
11460.5Murahashi, Tetsuro; Shirato, Katsunori; Fukushima, Azusa; Takase, Kohei; Suenobu, Tomoyoshi; Fukuzumi, Shunichi; Ogoshi, Sensuke; Kurosawa, Hideo
Redox-induced reversible metal assembly through translocation and reversible ligand coupling in tetranuclear metal sandwich frameworks.
Nature chemistry, 2012, 4, 52-58
1508167 CIFC60 H60 Cl8 F24 O4 P4 Pd4C 1 2/c 115.3692; 24.9813; 18.5227
90; 93.871; 90
7095.4Murahashi, Tetsuro; Shirato, Katsunori; Fukushima, Azusa; Takase, Kohei; Suenobu, Tomoyoshi; Fukuzumi, Shunichi; Ogoshi, Sensuke; Kurosawa, Hideo
Redox-induced reversible metal assembly through translocation and reversible ligand coupling in tetranuclear metal sandwich frameworks.
Nature chemistry, 2012, 4, 52-58
1508168 CIFC63 H61 B4 F16 N3 O6 Pd4C 1 2/c 126.6501; 11.2467; 21.7172
90; 104.023; 90
6315.2Murahashi, Tetsuro; Shirato, Katsunori; Fukushima, Azusa; Takase, Kohei; Suenobu, Tomoyoshi; Fukuzumi, Shunichi; Ogoshi, Sensuke; Kurosawa, Hideo
Redox-induced reversible metal assembly through translocation and reversible ligand coupling in tetranuclear metal sandwich frameworks.
Nature chemistry, 2012, 4, 52-58
1508169 CIFC62 H58 B2 F8 N2 O4 Pd4P 1 21/c 17.8918; 24.8188; 29.1008
90; 93.2773; 90
5690.5Murahashi, Tetsuro; Shirato, Katsunori; Fukushima, Azusa; Takase, Kohei; Suenobu, Tomoyoshi; Fukuzumi, Shunichi; Ogoshi, Sensuke; Kurosawa, Hideo
Redox-induced reversible metal assembly through translocation and reversible ligand coupling in tetranuclear metal sandwich frameworks.
Nature chemistry, 2012, 4, 52-58
1508170 CIFC112.5 H116 Cl4 N14 O25.5 Zn2P 31 1 212.4175; 12.4175; 66.702
90; 90; 120
8907Howson, Suzanne E.; Bolhuis, Albert; Brabec, Viktor; Clarkson, Guy J.; Malina, Jaroslav; Rodger, Alison; Scott, Peter
Optically pure, water-stable metallo-helical 'flexicate' assemblies with antibiotic activity.
Nature chemistry, 2012, 4, 31-36
1508171 CIFC22 H26 F3 N O3P -110.305; 11.201; 11.779
63.547; 65.449; 66.927
1070.9Montavon, Timothy J.; Li, Jing; Cabrera-Pardo, Jaime R; Mrksich, Milan; Kozmin, Sergey A.
Three-component reaction discovery enabled by mass spectrometry of self-assembled monolayers.
Nature chemistry, 2012, 4, 45-51
1508172 CIFC146 H118 O11P -322.205; 22.205; 12.509
90; 90; 120
5341.4Kissel, Patrick; Erni, Rolf; Schweizer, W. Bernd; Rossell, Marta D.; King, Benjamin T.; Bauer, Thomas; Götzinger, Stephan; Schlüter, A Dieter; Sakamoto, Junji
A two-dimensional polymer prepared by organic synthesis.
Nature chemistry, 2012, 4, 287-291
1508173 CIFC144 H110 Cl2 O6P -112.5392; 21.844; 22.5292
61.234; 88.2978; 89.8086
5406.5Kissel, Patrick; Erni, Rolf; Schweizer, W. Bernd; Rossell, Marta D.; King, Benjamin T.; Bauer, Thomas; Götzinger, Stephan; Schlüter, A Dieter; Sakamoto, Junji
A two-dimensional polymer prepared by organic synthesis.
Nature chemistry, 2012, 4, 287-291
1508174 CIFC33 H35 F3 N2 O2P 1 21 17.995; 12.695; 14.1
90; 103.65; 90
1390.7Moerdyk, Jonathan P.; Bielawski, Christopher W.
Diamidocarbenes as versatile and reversible [2 + 1] cycloaddition reagents.
Nature chemistry, 2012, 4, 275-280
1508175 CIFC32 H40 N2 O6P 1 21/c 116.103; 10.495; 17.623
90; 101.349; 90
2920.1Moerdyk, Jonathan P.; Bielawski, Christopher W.
Diamidocarbenes as versatile and reversible [2 + 1] cycloaddition reagents.
Nature chemistry, 2012, 4, 275-280
1508176 CIFC38 H40 N2 O2P 1 21/n 110.823; 16.686; 34.964
90; 94.576; 90
6294.11Moerdyk, Jonathan P.; Bielawski, Christopher W.
Diamidocarbenes as versatile and reversible [2 + 1] cycloaddition reagents.
Nature chemistry, 2012, 4, 275-280
1508177 CIFC28 H30 N4 O2P 1 21/n 115.343; 10.755; 15.6115
90; 101.147; 90
2527.52Moerdyk, Jonathan P.; Bielawski, Christopher W.
Diamidocarbenes as versatile and reversible [2 + 1] cycloaddition reagents.
Nature chemistry, 2012, 4, 275-280
1508178 CIFC31 H38 N2 O2P -112.279; 12.381; 18.148
76.148; 82.469; 76.342
2594.85Moerdyk, Jonathan P.; Bielawski, Christopher W.
Diamidocarbenes as versatile and reversible [2 + 1] cycloaddition reagents.
Nature chemistry, 2012, 4, 275-280
1508179 CIFC28 H34 N2 O3P -18.1786; 10.2957; 14.8635
85.453; 81.396; 80.662
1219.1Moerdyk, Jonathan P.; Bielawski, Christopher W.
Diamidocarbenes as versatile and reversible [2 + 1] cycloaddition reagents.
Nature chemistry, 2012, 4, 275-280
1508181 CIFC31 H33 N3 O5P 1 21/c 115.9318; 14.2492; 24.1259
90; 93.8; 90
5464.9Moerdyk, Jonathan P.; Bielawski, Christopher W.
Diamidocarbenes as versatile and reversible [2 + 1] cycloaddition reagents.
Nature chemistry, 2012, 4, 275-280
1508183 CIFC42 H54 N4 O2 Si4 UP -4 n 215.3164; 15.3164; 11.091
90; 90; 90
2601.86Arnold, Polly L.; Jones, Guy M.; Odoh, Samuel O.; Schreckenbach, Georg; Magnani, Nicola; Love, Jason B.
Strongly coupled binuclear uranium-oxo complexes from uranyl oxo rearrangement and reductive silylation.
Nature chemistry, 2012, 4, 221-227
1508184 CIFC69 H82 N8 O4 Si2 U2P 1 21/c 116.2362; 18.1288; 26.4879
90; 101.144; 90
7649.5Arnold, Polly L.; Jones, Guy M.; Odoh, Samuel O.; Schreckenbach, Georg; Magnani, Nicola; Love, Jason B.
Strongly coupled binuclear uranium-oxo complexes from uranyl oxo rearrangement and reductive silylation.
Nature chemistry, 2012, 4, 221-227
1508185 CIFC79 H83 N8 O4 Si2 U2P 1 21/n 115.465; 24.4171; 20.7529
90; 101.073; 90
7690.6Arnold, Polly L.; Jones, Guy M.; Odoh, Samuel O.; Schreckenbach, Georg; Magnani, Nicola; Love, Jason B.
Strongly coupled binuclear uranium-oxo complexes from uranyl oxo rearrangement and reductive silylation.
Nature chemistry, 2012, 4, 221-227
1508186 CIFC65 H90 N8 O12 Si U3P -114.1406; 14.7186; 18.347
86.724; 77.931; 77.425
3644.3Arnold, Polly L.; Jones, Guy M.; Odoh, Samuel O.; Schreckenbach, Georg; Magnani, Nicola; Love, Jason B.
Strongly coupled binuclear uranium-oxo complexes from uranyl oxo rearrangement and reductive silylation.
Nature chemistry, 2012, 4, 221-227
1508187 CIFC528 H408 F144 N72 O24 P24 Pd12I m -3 m39.346; 39.346; 39.346
90; 90; 90
60912Sun, Qing-Fu; Sato, Sota; Fujita, Makoto
An M~18~L~24~ stellated cuboctahedron through post-stellation of an M~12~L~24~ core
Nature Chemistry, 2012, 4, 330-333
1508188 CIFC552 H408 N90 O92 Pd18F 4 3 253.334; 53.334; 53.334
90; 90; 90
151709Sun, Qing-Fu; Sato, Sota; Fujita, Makoto
An M~18~L~24~ stellated cuboctahedron through post-stellation of an M~12~L~24~ core
Nature Chemistry, 2012, 4, 330-333
1508189 CIFC56 H90 GeC 1 2/c 132.638; 18.597; 16.904
90; 104.878; 90
9916Li, Liangchun; Fukawa, Tomohide; Matsuo, Tsukasa; Hashizume, Daisuke; Fueno, Hiroyuki; Tanaka, Kazuyoshi; Tamao, Kohei
A stable germanone as the first isolated heavy ketone with a terminal oxygen atom.
Nature chemistry, 2012, 4, 361-365
1508190 CIFC56 H90 Ge OP 1 21/c 125.3767; 10.9823; 18.0763
90; 90.2057; 90
5037.73Li, Liangchun; Fukawa, Tomohide; Matsuo, Tsukasa; Hashizume, Daisuke; Fueno, Hiroyuki; Tanaka, Kazuyoshi; Tamao, Kohei
A stable germanone as the first isolated heavy ketone with a terminal oxygen atom.
Nature chemistry, 2012, 4, 361-365
1508191 CIFC56 H92 Ge OP 1 21/c 112.9912; 18.9629; 20.688
90; 102.064; 90
4983.9Li, Liangchun; Fukawa, Tomohide; Matsuo, Tsukasa; Hashizume, Daisuke; Fueno, Hiroyuki; Tanaka, Kazuyoshi; Tamao, Kohei
A stable germanone as the first isolated heavy ketone with a terminal oxygen atom.
Nature chemistry, 2012, 4, 361-365
1508192 CIFC57 H94 Ge OP 1 21/c 113.71; 17.896; 21.842
90; 107.56; 90
5109.3Li, Liangchun; Fukawa, Tomohide; Matsuo, Tsukasa; Hashizume, Daisuke; Fueno, Hiroyuki; Tanaka, Kazuyoshi; Tamao, Kohei
A stable germanone as the first isolated heavy ketone with a terminal oxygen atom.
Nature chemistry, 2012, 4, 361-365
1508193 CIFC56 H92 Ge O2P 1 21/c 113.0454; 18.9843; 20.817
90; 102.151; 90
5040Li, Liangchun; Fukawa, Tomohide; Matsuo, Tsukasa; Hashizume, Daisuke; Fueno, Hiroyuki; Tanaka, Kazuyoshi; Tamao, Kohei
A stable germanone as the first isolated heavy ketone with a terminal oxygen atom.
Nature chemistry, 2012, 4, 361-365
1508194 CIFC60.25 H99 Ge O2I 41/a :238.9676; 38.9676; 14.2661
90; 90; 90
21662.7Li, Liangchun; Fukawa, Tomohide; Matsuo, Tsukasa; Hashizume, Daisuke; Fueno, Hiroyuki; Tanaka, Kazuyoshi; Tamao, Kohei
A stable germanone as the first isolated heavy ketone with a terminal oxygen atom.
Nature chemistry, 2012, 4, 361-365
1508195 CIFC62 H98 Ge O SiP 1 21/n 114.521; 22.215; 17.36
90; 97.761; 90
5548.8Li, Liangchun; Fukawa, Tomohide; Matsuo, Tsukasa; Hashizume, Daisuke; Fueno, Hiroyuki; Tanaka, Kazuyoshi; Tamao, Kohei
A stable germanone as the first isolated heavy ketone with a terminal oxygen atom.
Nature chemistry, 2012, 4, 361-365
1508196 CIFC57 H90 Ge O3P 1 2/c 110.0743; 9.9792; 24.924
90; 90.988; 90
2505.3Li, Liangchun; Fukawa, Tomohide; Matsuo, Tsukasa; Hashizume, Daisuke; Fueno, Hiroyuki; Tanaka, Kazuyoshi; Tamao, Kohei
A stable germanone as the first isolated heavy ketone with a terminal oxygen atom.
Nature chemistry, 2012, 4, 361-365
1508197 CIFC62 H50 N O2 PP -110.736; 13.918; 17.475
67.825; 89.276; 73.543
2305.9Ohmatsu, Kohsuke; Ito, Mitsunori; Kunieda, Tomoatsu; Ooi, Takashi
Ion-paired chiral ligands for asymmetric palladium catalysis.
Nature chemistry, 2012, 4, 473-477
1508198 CIFC14 H72 Cl3 Co2 N7 Na4 O75 Se2 W19C 1 2/m 134.9972; 20.861; 18.0161
90; 108.602; 90
12466Symes, Mark D.; Kitson, Philip J.; Yan, Jun; Richmond, Craig J.; Cooper, Geoffrey J. T.; Bowman, Richard W.; Vilbrandt, Turlif; Cronin, Leroy
Integrated 3D-printed reactionware for chemical synthesis and analysis.
Nature chemistry, 2012, 4, 349-354
1508199 CIFC16 H80 Cl3 Mn2 N8 Na3 O75 Se2 W19C 1 2/m 136.022; 20.6218; 17.8132
90; 110.322; 90
12408.7Symes, Mark D.; Kitson, Philip J.; Yan, Jun; Richmond, Craig J.; Cooper, Geoffrey J. T.; Bowman, Richard W.; Vilbrandt, Turlif; Cronin, Leroy
Integrated 3D-printed reactionware for chemical synthesis and analysis.
Nature chemistry, 2012, 4, 349-354
1508200 CIFC21 H17 Br N2 OP 1 21/n 19.0792; 13.8548; 13.5655
90; 101.341; 90
1673.09Symes, Mark D.; Kitson, Philip J.; Yan, Jun; Richmond, Craig J.; Cooper, Geoffrey J. T.; Bowman, Richard W.; Vilbrandt, Turlif; Cronin, Leroy
Integrated 3D-printed reactionware for chemical synthesis and analysis.
Nature chemistry, 2012, 4, 349-354
1508201 CIFC68 H92.24 F21 N16 O46.62 S4P 1 21/c 118.9372; 27.548; 18.7708
90; 100.644; 90
9623.9Ma, Da; Hettiarachchi, Gaya; Nguyen, Duc; Zhang, Ben; Wittenberg, James B.; Zavalij, Peter Y.; Briken, Volker; Isaacs, Lyle
Acyclic cucurbit[n]uril molecular containers enhance the solubility and bioactivity of poorly soluble pharmaceuticals.
Nature chemistry, 2012, 4, 503-510
1508202 CIFC42 H52 F16.5 N8 Na2 O29.25 S2P -119.457; 23.652; 29.876
80.705; 87.973; 75.36
13128Ma, Da; Hettiarachchi, Gaya; Nguyen, Duc; Zhang, Ben; Wittenberg, James B.; Zavalij, Peter Y.; Briken, Volker; Isaacs, Lyle
Acyclic cucurbit[n]uril molecular containers enhance the solubility and bioactivity of poorly soluble pharmaceuticals.
Nature chemistry, 2012, 4, 503-510
1508203 CIFC60 H62 Au2 Cl2 P2P 21 21 2111.4778; 16.5221; 27.708
90; 90; 90
5254.47Felix, Ryan J.; Weber, Dieter; Gutierrez, Osvaldo; Tantillo, Dean J.; Gagné, Michel R
A gold-catalysed enantioselective Cope rearrangement of achiral 1,5-dienes.
Nature chemistry, 2012, 4, 405-409
1508204 CIFC43 H65 N O14P -110.569; 14.846; 15.667
79.505; 77.528; 72.252
2268.1Vukotic, V. Nicholas; Harris, Kristopher J.; Zhu, Kelong; Schurko, Robert W.; Loeb, Stephen J.
Metal-organic frameworks with dynamic interlocked components.
Nature chemistry, 2012, 4, 456-460
1508205 CIFC35 H55 Cu2 N O19R -3 :H23.127; 23.127; 19.723
90; 90; 120
9136Vukotic, V. Nicholas; Harris, Kristopher J.; Zhu, Kelong; Schurko, Robert W.; Loeb, Stephen J.
Metal-organic frameworks with dynamic interlocked components.
Nature chemistry, 2012, 4, 456-460
1508206 CIFC43 H82 Cl2 F6 Ir2 N4 O6 P4 S2P -115.0826; 15.0937; 16.1407
62.563; 78.977; 62.693
2896.79Scheibel, Markus G.; Askevold, Bjorn; Heinemann, Frank W.; Reijerse, Edward J.; de Bruin, Bas; Schneider, Sven
Closed-shell and open-shell square-planar iridium nitrido complexes.
Nature chemistry, 2012, 4, 552-558
1508207 CIFC40 H80 Ir2 N4 P4P -111.5257; 13.0336; 17.1075
79.173; 89.524; 68.544
2344.1Scheibel, Markus G.; Askevold, Bjorn; Heinemann, Frank W.; Reijerse, Edward J.; de Bruin, Bas; Schneider, Sven
Closed-shell and open-shell square-planar iridium nitrido complexes.
Nature chemistry, 2012, 4, 552-558
1508208 CIFC20 H40 Ir N3 P2P 1 21/c 17.844; 26.903; 11.8151
90; 106.64; 90
2388.9Scheibel, Markus G.; Askevold, Bjorn; Heinemann, Frank W.; Reijerse, Edward J.; de Bruin, Bas; Schneider, Sven
Closed-shell and open-shell square-planar iridium nitrido complexes.
Nature chemistry, 2012, 4, 552-558
1508209 CIFC19 H31 B2 Fe N O3 Si2P -18.7118; 9.6694; 16.1522
91.546; 96.857; 116.772
1201.07Braunschweig, Holger; Ye, Qing; Vargas, Alfredo; Dewhurst, Rian D.; Radacki, Krzysztof; Damme, Alexander
Controlled homocatenation of boron on a transition metal.
Nature chemistry, 2012, 4, 563-567
1508210 CIFC36 H62 B4 Fe2 N2 O4 Si4C 1 2/c 127.394; 9.3733; 21.725
90; 126.076; 90
4508.6Braunschweig, Holger; Ye, Qing; Vargas, Alfredo; Dewhurst, Rian D.; Radacki, Krzysztof; Damme, Alexander
Controlled homocatenation of boron on a transition metal.
Nature chemistry, 2012, 4, 563-567
1508211 CIFC34 H62 B4 Fe N2 O2 Si4P -19.1423; 13.2797; 18.333
81.242; 86.113; 78.661
2155.2Braunschweig, Holger; Ye, Qing; Vargas, Alfredo; Dewhurst, Rian D.; Radacki, Krzysztof; Damme, Alexander
Controlled homocatenation of boron on a transition metal.
Nature chemistry, 2012, 4, 563-567
1508212 CIFC26 H16P -16.292; 7.673; 16.424
98.66; 91.16; 95.71
779.5Watanabe, Motonori; Chang, Yuan Jay; Liu, Shun-Wei; Chao, Ting-Han; Goto, Kenta; Islam, Md Minarul; Yuan, Chih-Hsien; Tao, Yu-Tai; Shinmyozu, Teruo; Chow, Tahsin J.
The synthesis, crystal structure and charge-transport properties of hexacene.
Nature chemistry, 2012, 4, 574-578
1508213 CIFC26 H16P -16.306; 7.697; 16.48
98.77; 91.25; 95.81
785.9Watanabe, Motonori; Chang, Yuan Jay; Liu, Shun-Wei; Chao, Ting-Han; Goto, Kenta; Islam, Md Minarul; Yuan, Chih-Hsien; Tao, Yu-Tai; Shinmyozu, Teruo; Chow, Tahsin J.
The synthesis, crystal structure and charge-transport properties of hexacene.
Nature chemistry, 2012, 4, 574-578
1508233 CIFC11 H16 Cl N3 O2 SP 1 21/c 18.2757; 16.992; 9.7999
90; 93.804; 90
1375Voica, Ana-Florina; Mendoza, Abraham; Gutekunst, Will R.; Fraga, Jorge Otero; Baran, Phil S.
Guided desaturation of unactivated aliphatics.
Nature chemistry, 2012, 4, 629-635
1508234 CIFC17 H24 O3 SP 21 21 215.9123; 15.7609; 17.3746
90; 90; 90
1619.02Voica, Ana-Florina; Mendoza, Abraham; Gutekunst, Will R.; Fraga, Jorge Otero; Baran, Phil S.
Guided desaturation of unactivated aliphatics.
Nature chemistry, 2012, 4, 629-635
1508235 CIFC15 H21 N O2 SP 1 21 18.0945; 9.5301; 9.8131
90; 96.014; 90
752.83Voica, Ana-Florina; Mendoza, Abraham; Gutekunst, Will R.; Fraga, Jorge Otero; Baran, Phil S.
Guided desaturation of unactivated aliphatics.
Nature chemistry, 2012, 4, 629-635
1508236 CIFC22 H32 O3 SP 1 21 19.8222; 6.1623; 17.139
90; 100.004; 90
1021.61Voica, Ana-Florina; Mendoza, Abraham; Gutekunst, Will R.; Fraga, Jorge Otero; Baran, Phil S.
Guided desaturation of unactivated aliphatics.
Nature chemistry, 2012, 4, 629-635
1508237 CIFC27 H35 N O2 SP 21 21 218.724; 11.713; 22.823
90; 90; 90
2332.2Voica, Ana-Florina; Mendoza, Abraham; Gutekunst, Will R.; Fraga, Jorge Otero; Baran, Phil S.
Guided desaturation of unactivated aliphatics.
Nature chemistry, 2012, 4, 629-635
1508238 CIFC27 H35 N O2 SP 21 21 217.4983; 9.7183; 32.9845
90; 90; 90
2403.6Voica, Ana-Florina; Mendoza, Abraham; Gutekunst, Will R.; Fraga, Jorge Otero; Baran, Phil S.
Guided desaturation of unactivated aliphatics.
Nature chemistry, 2012, 4, 629-635
1508239 CIFC76 H109 B O4 U2C 1 2/c 114.2651; 15.6815; 31.5761
90; 97.149; 90
7008.6Arnold, Polly L.; Mansell, Stephen M.; Maron, Laurent; McKay, David
Spontaneous reduction and C-H borylation of arenes mediated by uranium(III) disproportionation.
Nature chemistry, 2012, 4, 668-674
1508240 CIFC78 H113 B O4 U2C 1 2/c 114.0326; 15.8676; 31.7835
90; 95.86; 90
7040Arnold, Polly L.; Mansell, Stephen M.; Maron, Laurent; McKay, David
Spontaneous reduction and C-H borylation of arenes mediated by uranium(III) disproportionation.
Nature chemistry, 2012, 4, 668-674
1508241 CIFC76 H107 B O4 U2P c a 2124.882; 10.719; 25.2792
90; 90; 90
6742.22Arnold, Polly L.; Mansell, Stephen M.; Maron, Laurent; McKay, David
Spontaneous reduction and C-H borylation of arenes mediated by uranium(III) disproportionation.
Nature chemistry, 2012, 4, 668-674
1508242 CIFC81 H113 B O4 U2C 1 2/c 114.2409; 15.9949; 31.9248
90; 97.411; 90
7211.1Arnold, Polly L.; Mansell, Stephen M.; Maron, Laurent; McKay, David
Spontaneous reduction and C-H borylation of arenes mediated by uranium(III) disproportionation.
Nature chemistry, 2012, 4, 668-674
1508243 CIFC80 H108 O4 U2C 1 2/c 125.959; 26.8806; 23.248
90; 117.573; 90
14380Arnold, Polly L.; Mansell, Stephen M.; Maron, Laurent; McKay, David
Spontaneous reduction and C-H borylation of arenes mediated by uranium(III) disproportionation.
Nature chemistry, 2012, 4, 668-674
1508244 CIFC30 H78 N4 Si8 U2P 1 21/c 110.3378; 17.6019; 13.7838
90; 107.967; 90
2385.86Arnold, Polly L.; Mansell, Stephen M.; Maron, Laurent; McKay, David
Spontaneous reduction and C-H borylation of arenes mediated by uranium(III) disproportionation.
Nature chemistry, 2012, 4, 668-674
1508245 CIFC46 H84 N2 O2 Si4 U2P 1 21/c 19.9492; 16.7596; 31.5821
90; 94.515; 90
5249.8Arnold, Polly L.; Mansell, Stephen M.; Maron, Laurent; McKay, David
Spontaneous reduction and C-H borylation of arenes mediated by uranium(III) disproportionation.
Nature chemistry, 2012, 4, 668-674
1508246 CIFC63 H92 O4 U2P -113.9662; 17.3367; 26.0453
87.379; 78.703; 68.266
5742Arnold, Polly L.; Mansell, Stephen M.; Maron, Laurent; McKay, David
Spontaneous reduction and C-H borylation of arenes mediated by uranium(III) disproportionation.
Nature chemistry, 2012, 4, 668-674
1508247 CIFC31 H80 N4 Si8 U2P 1 21/n 122.026; 17.4845; 28.1385
90; 112.026; 90
10045.6Arnold, Polly L.; Mansell, Stephen M.; Maron, Laurent; McKay, David
Spontaneous reduction and C-H borylation of arenes mediated by uranium(III) disproportionation.
Nature chemistry, 2012, 4, 668-674
1508248 CIFC68 H94 O4 U2C 1 2/c 125.9066; 13.8525; 17.9287
90; 108.504; 90
6101.5Arnold, Polly L.; Mansell, Stephen M.; Maron, Laurent; McKay, David
Spontaneous reduction and C-H borylation of arenes mediated by uranium(III) disproportionation.
Nature chemistry, 2012, 4, 668-674
1508249 CIFC36 H82 N4 Si8 U2P 4214.8957; 14.8957; 12.143
90; 90; 90
2694.31Arnold, Polly L.; Mansell, Stephen M.; Maron, Laurent; McKay, David
Spontaneous reduction and C-H borylation of arenes mediated by uranium(III) disproportionation.
Nature chemistry, 2012, 4, 668-674
1508250 CIFC52 H71 Cr O7 UP 21 21 2111.8917; 15.9353; 26.8697
90; 90; 90
5091.7Arnold, Polly L.; Mansell, Stephen M.; Maron, Laurent; McKay, David
Spontaneous reduction and C-H borylation of arenes mediated by uranium(III) disproportionation.
Nature chemistry, 2012, 4, 668-674
1509131 CIFC12 H21 F6 O PP 1 21/c 18.4923; 14.1476; 12.0094
90; 97.677; 90
1429.94Gunbas, Gorkem; Hafezi, Nema; Sheppard, William L; Olmstead, Marilyn M; Stoyanova, Irini V; Tham, Fook S; Meyer, Matthew P; Mascal, Mark
Extreme oxatriquinanes and a record C-O bond length.
Nature chemistry, 2012, 4, 1018-1023
1509132 CIFC18 H33 F6 O PP 1 21/c 18.8102; 15.9354; 14.1905
90; 92.221; 90
1990.8Gunbas, Gorkem; Hafezi, Nema; Sheppard, William L; Olmstead, Marilyn M; Stoyanova, Irini V; Tham, Fook S; Meyer, Matthew P; Mascal, Mark
Extreme oxatriquinanes and a record C-O bond length.
Nature chemistry, 2012, 4, 1018-1023
1509133 CIFC18 H33 F6 O PR 3 c :H10.2958; 10.2958; 32.34
90; 90; 120
2968.9Gunbas, Gorkem; Hafezi, Nema; Sheppard, William L; Olmstead, Marilyn M; Stoyanova, Irini V; Tham, Fook S; Meyer, Matthew P; Mascal, Mark
Extreme oxatriquinanes and a record C-O bond length.
Nature chemistry, 2012, 4, 1018-1023
1509134 CIFC22 H40 B11 Cl11 OP -19.4366; 13.2814; 14.9075
92.8458; 90.6035; 96.3976
1854.21Gunbas, Gorkem; Hafezi, Nema; Sheppard, William L; Olmstead, Marilyn M; Stoyanova, Irini V; Tham, Fook S; Meyer, Matthew P; Mascal, Mark
Extreme oxatriquinanes and a record C-O bond length.
Nature chemistry, 2012, 4, 1018-1023
1513339 CIFC33 H28 N2 O4P -18.441; 10.983; 13.892
90.769; 90.334; 94.472
1283.8Niu, Dawen; Hoye, Thomas R.
The aromatic ene reaction
Nature Chemistry, 2013, 6, 34
1513770 CIFC19.5 H17 Au F PC 1 2/c 123.0127; 9.31; 19.0897
90; 126.337; 90
3294.6Wolf, William J.; Winston, Matthew S.; Toste, F. Dean
Exceptionally fast carbon-carbon bond reductive elimination from gold(III).
Nature chemistry, 2014, 6, 159-164
1513771 CIFC25 H23 Au2 Cl4 N P2P 1 21/c 18.8394; 16.1038; 22.1064
90; 100.248; 90
3096.6Wolf, William J.; Winston, Matthew S.; Toste, F. Dean
Exceptionally fast carbon-carbon bond reductive elimination from gold(III).
Nature chemistry, 2014, 6, 159-164
1513772 CIFC37 H30 Au2 F2 P2C 1 2/c 116.1721; 10.6985; 18.0543
90; 98.385; 90
3090.3Wolf, William J.; Winston, Matthew S.; Toste, F. Dean
Exceptionally fast carbon-carbon bond reductive elimination from gold(III).
Nature chemistry, 2014, 6, 159-164
1513773 CIFC22 H31 Cl N2 O3 SP 1 21/n 113.442; 8.1038; 20.1572
90; 104.261; 90
2128.08McLeod, Michael C.; Singh, Gurpreet; Plampin, 3rd, James N; Rane, Digamber; Wang, Jenna L.; Day, Victor W.; Aubé, Jeffrey
Probing chemical space with alkaloid-inspired libraries.
Nature chemistry, 2014, 6, 133-140
1513774 CIFC16 H27 N O2P n a 2120.4107; 8.6349; 16.7557
90; 90; 90
2953.1McLeod, Michael C.; Singh, Gurpreet; Plampin, 3rd, James N; Rane, Digamber; Wang, Jenna L.; Day, Victor W.; Aubé, Jeffrey
Probing chemical space with alkaloid-inspired libraries.
Nature chemistry, 2014, 6, 133-140
1513775 CIFC16 H25 N O2P 1 21/n 19.7778; 8.0904; 18.01
90; 94.851; 90
1419.6McLeod, Michael C.; Singh, Gurpreet; Plampin, 3rd, James N; Rane, Digamber; Wang, Jenna L.; Day, Victor W.; Aubé, Jeffrey
Probing chemical space with alkaloid-inspired libraries.
Nature chemistry, 2014, 6, 133-140
1513776 CIFC14 H23 N O3P -17.867; 9.1892; 10.2943
110.964; 109.591; 90.081
648.44McLeod, Michael C.; Singh, Gurpreet; Plampin, 3rd, James N; Rane, Digamber; Wang, Jenna L.; Day, Victor W.; Aubé, Jeffrey
Probing chemical space with alkaloid-inspired libraries.
Nature chemistry, 2014, 6, 133-140
1513777 CIFC19 H26 N2 O3P 21 21 217.238; 11.592; 20.28
90; 90; 90
1701.6McLeod, Michael C.; Singh, Gurpreet; Plampin, 3rd, James N; Rane, Digamber; Wang, Jenna L.; Day, Victor W.; Aubé, Jeffrey
Probing chemical space with alkaloid-inspired libraries.
Nature chemistry, 2014, 6, 133-140
1513778 CIFC18 H20 Br N O3P 1 21/n 19.717; 7.555; 23.041
90; 99.168; 90
1669.9McLeod, Michael C.; Singh, Gurpreet; Plampin, 3rd, James N; Rane, Digamber; Wang, Jenna L.; Day, Victor W.; Aubé, Jeffrey
Probing chemical space with alkaloid-inspired libraries.
Nature chemistry, 2014, 6, 133-140
1513779 CIFC20 H26 Br N O4P 1 21/c 115.7732; 8.3002; 15.3015
90; 111.867; 90
1859.15McLeod, Michael C.; Singh, Gurpreet; Plampin, 3rd, James N; Rane, Digamber; Wang, Jenna L.; Day, Victor W.; Aubé, Jeffrey
Probing chemical space with alkaloid-inspired libraries.
Nature chemistry, 2014, 6, 133-140
1513780 CIFC22 H31 Br N2 O2P 1 21/c 112.5683; 17.2; 9.5705
90; 91.062; 90
2068.55McLeod, Michael C.; Singh, Gurpreet; Plampin, 3rd, James N; Rane, Digamber; Wang, Jenna L.; Day, Victor W.; Aubé, Jeffrey
Probing chemical space with alkaloid-inspired libraries.
Nature chemistry, 2014, 6, 133-140
1513781 CIFC20 H25 N O2P -18.1628; 11.2261; 18.4027
90.626; 100.074; 93.553
1656.76McLeod, Michael C.; Singh, Gurpreet; Plampin, 3rd, James N; Rane, Digamber; Wang, Jenna L.; Day, Victor W.; Aubé, Jeffrey
Probing chemical space with alkaloid-inspired libraries.
Nature chemistry, 2014, 6, 133-140
1513782 CIFC20 H27 N O2P -18.5052; 15.5856; 19.9392
101.084; 100.283; 90.24
2550.12McLeod, Michael C.; Singh, Gurpreet; Plampin, 3rd, James N; Rane, Digamber; Wang, Jenna L.; Day, Victor W.; Aubé, Jeffrey
Probing chemical space with alkaloid-inspired libraries.
Nature chemistry, 2014, 6, 133-140
1513783 CIFC20 H27 N3 O5 SP -19.3311; 10.7524; 10.8992
116.238; 94.799; 96.792
962.57McLeod, Michael C.; Singh, Gurpreet; Plampin, 3rd, James N; Rane, Digamber; Wang, Jenna L.; Day, Victor W.; Aubé, Jeffrey
Probing chemical space with alkaloid-inspired libraries.
Nature chemistry, 2014, 6, 133-140
1513784 CIFC14 H23 N O2P 1 21/n 18.6602; 11.241; 12.9622
90; 94.253; 90
1258.39McLeod, Michael C.; Singh, Gurpreet; Plampin, 3rd, James N; Rane, Digamber; Wang, Jenna L.; Day, Victor W.; Aubé, Jeffrey
Probing chemical space with alkaloid-inspired libraries.
Nature chemistry, 2014, 6, 133-140
1513785 CIFC21 H22 N2 O2P 1 2/n 18.3047; 7.7059; 25.706
90; 98.62; 90
1626.5Mizoguchi, Haruki; Oikawa, Hideaki; Oguri, Hiroki
Biogenetically inspired synthesis and skeletal diversification of indole alkaloids.
Nature chemistry, 2014, 6, 57-64
1513786 CIFC25 H24 N2 O2P 1 21/c 18.3426; 8.7981; 27.0612
90; 94.54; 90
1980.03Mizoguchi, Haruki; Oikawa, Hideaki; Oguri, Hiroki
Biogenetically inspired synthesis and skeletal diversification of indole alkaloids.
Nature chemistry, 2014, 6, 57-64
1513787 CIFC23 H23 N3 O6 SP 1 21 111.0525; 27.518; 11.4121
90; 94.477; 90
3460.3Ohmatsu, Kohsuke; Imagawa, Naomichi; Ooi, Takashi
Ligand-enabled multiple absolute stereocontrol in metal-catalysed cycloaddition for construction of contiguous all-carbon quaternary stereocentres.
Nature chemistry, 2014, 6, 47-51
1513788 CIFC28 H25 N3 O6 SP 21 21 217.704; 12.588; 26.614
90; 90; 90
2581Ohmatsu, Kohsuke; Imagawa, Naomichi; Ooi, Takashi
Ligand-enabled multiple absolute stereocontrol in metal-catalysed cycloaddition for construction of contiguous all-carbon quaternary stereocentres.
Nature chemistry, 2014, 6, 47-51
1513789 CIFC22 H23 N3 O8 SP 21 21 2110.901; 11.15; 18.652
90; 90; 90
2267.1Ohmatsu, Kohsuke; Imagawa, Naomichi; Ooi, Takashi
Ligand-enabled multiple absolute stereocontrol in metal-catalysed cycloaddition for construction of contiguous all-carbon quaternary stereocentres.
Nature chemistry, 2014, 6, 47-51
1513790 CIFC17 H16 F6 N3 P RuP c a 2111.1674; 10.4372; 16.4146
90; 90; 90
1913.23Li, Le; Herzon, Seth B.
Temporal separation of catalytic activities allows anti-Markovnikov reductive functionalization of terminal alkynes.
Nature chemistry, 2014, 6, 22-27
1516318 CIFC25 H16 N4 O4I -4 3 d18.0373; 18.0373; 18.0373
90; 90; 90
5868.3Beaudoin, Daniel; Maris, Thierry; Wuest, James D.
Constructing monocrystalline covalent organic networks by polymerization
Nature Chemistry, 2013, 5, 830-834
1516319 CIFC25 H16 N4 O4P -4 b 213.1545; 13.1545; 7.9818
90; 90; 90
1381.2Beaudoin, Daniel; Maris, Thierry; Wuest, James D.
Constructing monocrystalline covalent organic networks by polymerization
Nature Chemistry, 2013, 5, 830-834
1516320 CIFC24 H16 N4 O4 SiP -4 b 213.421; 13.421; 8.528
90; 90; 90
1536.1Beaudoin, Daniel; Maris, Thierry; Wuest, James D.
Constructing monocrystalline covalent organic networks by polymerization
Nature Chemistry, 2013, 5, 830-834
1516321 CIFC34 H28 N4 O4P 42/n :215.7703; 15.7703; 7.0717
90; 90; 90
1758.75Beaudoin, Daniel; Maris, Thierry; Wuest, James D.
Constructing monocrystalline covalent organic networks by polymerization
Nature Chemistry, 2013, 5, 830-834
1520105 CIFC72 H80 N4 O18P -112.6007; 16.0006; 17.3353
106.074; 101.073; 92.406
3279.14Kelong Zhu; Christopher A. O'Keefe; V. Nicholas Vukotic; Robert W. Schurko; Stephen J. Loeb
A molecular shuttle that operates inside a metal-organic framework
Nature Chemistry, 2015, 7, 514-519
1520106 CIFC224 H273 B3 F12 N12 O66 Zn8R 3 2 :H33.03; 33.03; 28.099
90; 90; 120
26548Kelong Zhu; Christopher A. O'Keefe; V. Nicholas Vukotic; Robert W. Schurko; Stephen J. Loeb
A molecular shuttle that operates inside a metal-organic framework
Nature Chemistry, 2015, 7, 514-519
1545194 CIFC93.5 H186.96 N36.71 O45.36 P Pt6P 21 21 223.445; 26.734; 28.033
90; 90; 90
17570Sawada, Tomohisa; Yoshizawa, Michito; Sato, Sota; Fujita, Makoto
Minimal nucleotide duplex formation in water through enclathration in self-assembled hosts
Nature Chemistry, 2009, 1, 53
1545195 CIFC152 H239 N64 O97 P2 Pt6P 43 21 228.765; 28.765; 28.673
90; 90; 90
23725Sawada, Tomohisa; Yoshizawa, Michito; Sato, Sota; Fujita, Makoto
Minimal nucleotide duplex formation in water through enclathration in self-assembled hosts
Nature Chemistry, 2009, 1, 53
1545196 CIFC114 H198 N42 O69 Pt6R 3 c :H32.247; 32.247; 27.798
90; 90; 120
25034Sawada, Tomohisa; Yoshizawa, Michito; Sato, Sota; Fujita, Makoto
Minimal nucleotide duplex formation in water through enclathration in self-assembled hosts
Nature Chemistry, 2009, 1, 53
1547481 CIFC68 H55 Ca F9 Mn3 N6 O20 S3P 1 21/c 113.5027; 19.1805; 27.433
90; 91.337; 90
7102.9Tsui, Emily Y.; Tran, Rosalie; Yano, Junko; Agapie, Theodor
Redox-inactive metals modulate the reduction potential in heterometallic manganese-oxido clusters
Nature Chemistry, 2013, 5, 293-299
1547482 CIFC64 H45 Ca F9 Mn3 N6 O21 S3P -114.7053; 14.7735; 18.5085
69.988; 72.802; 69.91
3475.2Tsui, Emily Y.; Tran, Rosalie; Yano, Junko; Agapie, Theodor
Redox-inactive metals modulate the reduction potential in heterometallic manganese-oxido clusters
Nature Chemistry, 2013, 5, 293-299
1547483 CIFC76 H65 Ca F6 Mn3 N6 O19 S2P 1 21/c 111.679; 27.0308; 25.7452
90; 93.682; 90
8110.8Tsui, Emily Y.; Tran, Rosalie; Yano, Junko; Agapie, Theodor
Redox-inactive metals modulate the reduction potential in heterometallic manganese-oxido clusters
Nature Chemistry, 2013, 5, 293-299
1547484 CIFC75 H57 Cl2 F9 Mn3 N6 O20 S3 SrP 1 21/n 116.0744; 26.0588; 20.2364
90; 105.055; 90
8185.7Tsui, Emily Y.; Tran, Rosalie; Yano, Junko; Agapie, Theodor
Redox-inactive metals modulate the reduction potential in heterometallic manganese-oxido clusters
Nature Chemistry, 2013, 5, 293-299
1547485 CIFC76 H65 F6 Mn3 N6 O19 S2 SrP 1 21/c 111.7071; 27.1019; 25.4494
90; 93.564; 90
8059.1Tsui, Emily Y.; Tran, Rosalie; Yano, Junko; Agapie, Theodor
Redox-inactive metals modulate the reduction potential in heterometallic manganese-oxido clusters
Nature Chemistry, 2013, 5, 293-299
1547486 CIFC67.4 H47.11 F9 Mn3 N7.7 O18 S3 ZnP -114.3484; 14.3923; 18.5632
72.643; 73.273; 70.956
3380.7Tsui, Emily Y.; Tran, Rosalie; Yano, Junko; Agapie, Theodor
Redox-inactive metals modulate the reduction potential in heterometallic manganese-oxido clusters
Nature Chemistry, 2013, 5, 293-299
1547487 CIFC126 H90 F12 Mn6 N12 Na2 O31.74 S4P -113.5641; 15.0073; 16.813
102.848; 109.783; 93.581
3104.3Tsui, Emily Y.; Tran, Rosalie; Yano, Junko; Agapie, Theodor
Redox-inactive metals modulate the reduction potential in heterometallic manganese-oxido clusters
Nature Chemistry, 2013, 5, 293-299
1547488 CIFC72 H65 F9 Mn3 N6 O21 S3 YP 1 21/c 114.7253; 25.28; 23.717
90; 102.212; 90
8629Tsui, Emily Y.; Tran, Rosalie; Yano, Junko; Agapie, Theodor
Redox-inactive metals modulate the reduction potential in heterometallic manganese-oxido clusters
Nature Chemistry, 2013, 5, 293-299
1548529 CIFC22 H31 Cl2 NP 1 21 16.7424; 17.1958; 9.2973
90; 102.425; 90
1052.69Shaolin Zhu; Nootaree Niljianskul; Stephen L. Buchwald
A direct approach to amines with remote stereocenters by enantioselective CuH-catalysed reductive relay hydroamination
Nature Chemistry, 2016, 8, 144-150
1551114 CIFC10 H14 Cu O4P 1 21/n 110.277; 4.643; 11.285
90; 92.48; 90
537.97Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551115 CIFC10 H14 Cu O4P 1 21/n 110.225; 4.708; 11.187
90; 93.01; 90
537.79Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551116 CIFC10 H14 Cu O4P 1 21/n 110.231; 4.7; 11.191
90; 92.95; 90
537.41Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551117 CIFC10 H14 Cu O4P 1 21/n 110.257; 4.678; 11.221
90; 92.81; 90
537.76Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551118 CIFC10 H14 Cu O4P 1 21/n 110.259; 4.673; 11.23
90; 92.77; 90
537.74Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551119 CIFC10 H14 Cu O4P 1 21/n 110.238; 4.691; 11.211
90; 92.85; 90
537.76Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551120 CIFC10 H14 Cu O4P 1 21/n 110.25; 4.683; 11.213
90; 92.77; 90
537.6Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551121 CIFC10 H14 Cu O4P 1 21/n 110.268; 4.674; 11.227
90; 92.56; 90
538.28Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551122 CIFC10 H14 Cu O4P 1 21/n 110.264; 4.664; 11.249
90; 92.6; 90
537.95Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551123 CIFC10 H14 Cu O4P 1 21/n 110.271; 4.654; 11.269
90; 92.46; 90
538.18Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551124 CIFC10 H14 Cu O4P 1 21/n 110.278; 4.629; 11.318
90; 92.33; 90
538.03Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551125 CIFC10 H14 Cu O4P 1 21/n 110.283; 4.618; 11.334
90; 92.26; 90
537.8Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551126 CIFC10 H14 Cu O4P 1 21/n 110.292; 4.605; 11.36
90; 92.17; 90
538.02Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551127 CIFC10 H14 Cu O4P 1 21/n 110.301; 4.594; 11.38
90; 92.07; 90
538.18Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551128 CIFC10 H14 Cu O4P 1 21/n 110.301; 4.58; 11.413
90; 91.95; 90
538.14Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551129 CIFC10 H14 Cu O4P 1 21/n 110.305; 4.573; 11.428
90; 91.94; 90
538.23Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551130 CIFC10 H14 Cu O4P 1 21/n 110.321; 4.563; 11.444
90; 91.68; 90
538.72Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551131 CIFC10 H14 Cu O4P 1 21/n 110.326; 4.558; 11.451
90; 91.63; 90
538.73Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551132 CIFC10 H14 Cu O4P 1 21/n 110.261; 4.668; 11.242
90; 92.72; 90
537.87Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551133 CIFC10 H14 Cu O4P 1 21/n 110.266; 4.659; 11.26
90; 92.63; 90
537.99Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551134 CIFC10 H14 Cu O4P 1 21/n 110.268; 4.654; 11.268
90; 92.61; 90
537.91Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551135 CIFC10 H14 Cu O4P 1 21/n 110.27; 4.65; 11.282
90; 92.55; 90
538.24Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551136 CIFC10 H14 Cu O4P 1 21/n 110.276; 4.64; 11.298
90; 92.49; 90
538.19Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551137 CIFC10 H14 Cu O4P 1 21/n 110.279; 4.633; 11.311
90; 92.43; 90
538.17Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551138 CIFC10 H14 Cu O4P 1 21/n 110.287; 4.615; 11.348
90; 92.26; 90
538.32Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551139 CIFC10 H14 Cu O4P 1 21/n 110.29; 4.611; 11.357
90; 92.22; 90
538.45Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551140 CIFC10 H14 Cu O4P 1 21/n 110.293; 4.603; 11.372
90; 92.14; 90
538.41Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551141 CIFC10 H14 Cu O4P 1 21/n 110.296; 4.599; 11.38
90; 92.1; 90
538.5Anna Worthy; Arnaud Grosjean; Michael C. Pfrunder; Yanan Xu; Cheng Yan; Grant Edwards; Jack K. Clegg; John C. McMurtrie
Atomic resolution of structural changes in elastic crystals of copper(II) acetylacetonate
Nature Chemistry, 2018, 10, 65-69
1551160 CIFC142 H129 Au11 Cl9 N2 P7P -116.321; 16.896; 27.357
107.097; 95.666; 92.215
7157Mina R. Narouz; Kimberly M. Osten; Phillip J. Unsworth; Renee W. Y. Man; Kirsi Salorinne; Shinjiro Takano; Ryohei Tomihara; Sami Kaappa; Sami Malola; Cao-Thang Dinh; J. Daniel Padmos; Kennedy Ayoo; Patrick J. Garrett; Masakazu Nambo; J. Hugh Horton; Edward H. Sargent; Hannu Hakkinen; Tatsuya Tsukuda; Cathleen M. Crudden
N-heterocyclic carbene-functionalized magic-number gold nanoclusters
Nature Chemistry, 2019, 11, 419-425
1551161 CIFC18 H18 In N3 O8F d d d15.3069; 26.9467; 31.284
90; 90; 90
12903.7Carrington, Elliot J.; McAnally, Craig A.; Fletcher, Ashleigh J.; Thompson, Stephen P.; Warren, Mark; Brammer, Lee
Solvent-switchable continuous-breathing behaviour in a diamoniod metal-organic framework and its influence on CO2 vs CH4 selectivity
Nature Chemistry, 2017, 9, 882-889
1551277 CIF
HKL
C22 H31 Cl O3P 3213.1784; 13.1784; 9.8668
90; 90; 120
1484Evijola Llabani; Robert W. Hicklin; Hyang Yeon Lee; Stephen E. Motika; Lisa A. Crawford; Eranthie Weerapana; Paul J. Hergenrother
Diverse compounds from pleuromutilin lead to a thioredoxin inhibitor and inducer of ferroptosis
Nature Chemistry, 2019, 11, 521-532
1551278 CIF
HKL
C32 H39.9 Cl N4 O7.45P 21 21 218.5146; 14.5929; 24.9839
90; 90; 90
3104.32Evijola Llabani; Robert W. Hicklin; Hyang Yeon Lee; Stephen E. Motika; Lisa A. Crawford; Eranthie Weerapana; Paul J. Hergenrother
Diverse compounds from pleuromutilin lead to a thioredoxin inhibitor and inducer of ferroptosis
Nature Chemistry, 2019, 11, 521-532
1551314 CIFFe4 O5P 1 21/m 1 (c,2*a+c,b)2.861; 9.8123; 12.5425
90; 90; 90
352.11Sergey V. Ovsyannikov; Maxim Bykov; Elena Bykova; Denis P. Kozlenko; Alexander A. Tsirlin; Alexander E. Karkin; Vladimir V. Shchennikov; Sergey E. Kichanov; Huiyang Gou; Artem M. Abakumov; Ricardo Egoavil; Johan Verbeeck; Catherine McCammon; Vadim Dyadkin; Dmitry Chernyshov; Sander van Smaalen; Leonid S. Dubrovinsky
Charge-ordering transition in iron oxide Fe4O5 involving competing dimer and trimer formation
Nature Chemistry, 2016, 8, 501-508
1551315 CIFFe4 O5P 18.583; 39.2492; 12.5425
90; 90; 90
4225.3Sergey V. Ovsyannikov; Maxim Bykov; Elena Bykova; Denis P. Kozlenko; Alexander A. Tsirlin; Alexander E. Karkin; Vladimir V. Shchennikov; Sergey E. Kichanov; Huiyang Gou; Artem M. Abakumov; Ricardo Egoavil; Johan Verbeeck; Catherine McCammon; Vadim Dyadkin; Dmitry Chernyshov; Sander van Smaalen; Leonid S. Dubrovinsky
Charge-ordering transition in iron oxide Fe4O5 involving competing dimer and trimer formation
Nature Chemistry, 2016, 8, 501-508
1551316 CIFC7 H14 N O4 ReP m n 218.9571; 5.9973; 9.1546
90; 90; 90
491.77Jun Harada; Takafumi Shimojo; Hideaki Oyamaguchi; Hiroyuki Hasegawa; Yukihiro Takahashi; Koichiro Satomi; Yasutaka Suzuki; Jun Kawamata; Tamotsu Inabe
Directionally tunable and mechanically deformable ferroelectric crystals from rotating polar globular ionic molecules
Nature Chemistry, 2016, 8, 946-952
1551317 CIFC7 H14 N O4 ReR 3 m :R6.36; 6.36; 6.36
89.912; 89.912; 89.912
257.26Jun Harada; Takafumi Shimojo; Hideaki Oyamaguchi; Hiroyuki Hasegawa; Yukihiro Takahashi; Koichiro Satomi; Yasutaka Suzuki; Jun Kawamata; Tamotsu Inabe
Directionally tunable and mechanically deformable ferroelectric crystals from rotating polar globular ionic molecules
Nature Chemistry, 2016, 8, 946-952
1551318 CIFC7 H14 N O4 ReP m -3 m6.3881; 6.3881; 6.3881
90; 90; 90
260.68Jun Harada; Takafumi Shimojo; Hideaki Oyamaguchi; Hiroyuki Hasegawa; Yukihiro Takahashi; Koichiro Satomi; Yasutaka Suzuki; Jun Kawamata; Tamotsu Inabe
Directionally tunable and mechanically deformable ferroelectric crystals from rotating polar globular ionic molecules
Nature Chemistry, 2016, 8, 946-952
1551319 CIFC30 H62 N8 O16P 41 3 220.1798; 20.1798; 20.1798
90; 90; 90
8217.7Marc A. Little; Michael E. Briggs; James T. A. Jones; Marc Schmidtmann; Tom Hasell; Samantha Y. Chong; Kim E. Jelfs; Linjiang Chen; Andrew I. Cooper
Trapping virtual pores by crystal retro-engineering
Nature Chemistry, 2015, 7, 153-159
1551320 CIFC72 H69 N11C 1 2/c 123.6949; 13.4437; 18.9583
90; 98.83; 90
5967.5Marc A. Little; Michael E. Briggs; James T. A. Jones; Marc Schmidtmann; Tom Hasell; Samantha Y. Chong; Kim E. Jelfs; Linjiang Chen; Andrew I. Cooper
Trapping virtual pores by crystal retro-engineering
Nature Chemistry, 2015, 7, 153-159
1551321 CIFC216 H237 N35R 3 2 :H20.792; 20.792; 45.156
90; 90; 120
16906Marc A. Little; Michael E. Briggs; James T. A. Jones; Marc Schmidtmann; Tom Hasell; Samantha Y. Chong; Kim E. Jelfs; Linjiang Chen; Andrew I. Cooper
Trapping virtual pores by crystal retro-engineering
Nature Chemistry, 2015, 7, 153-159
1551322 CIFC216 H237 N35R 3 2 :H20.804; 20.804; 45.126
90; 90; 120
16914Marc A. Little; Michael E. Briggs; James T. A. Jones; Marc Schmidtmann; Tom Hasell; Samantha Y. Chong; Kim E. Jelfs; Linjiang Chen; Andrew I. Cooper
Trapping virtual pores by crystal retro-engineering
Nature Chemistry, 2015, 7, 153-159
1551323 CIFC216 H237 N35R 3 2 :H20.4108; 20.4108; 44.6718
90; 90; 120
16117Marc A. Little; Michael E. Briggs; James T. A. Jones; Marc Schmidtmann; Tom Hasell; Samantha Y. Chong; Kim E. Jelfs; Linjiang Chen; Andrew I. Cooper
Trapping virtual pores by crystal retro-engineering
Nature Chemistry, 2015, 7, 153-159
1551324 CIFC216 H237 N35R 3 2 :H20.6365; 20.6365; 44.899
90; 90; 120
16559Marc A. Little; Michael E. Briggs; James T. A. Jones; Marc Schmidtmann; Tom Hasell; Samantha Y. Chong; Kim E. Jelfs; Linjiang Chen; Andrew I. Cooper
Trapping virtual pores by crystal retro-engineering
Nature Chemistry, 2015, 7, 153-159
1551325 CIFC218.02 H246.5 Cl1.5 N35 O1.5R 3 2 :H20.718; 20.718; 44.992
90; 90; 120
16725Marc A. Little; Michael E. Briggs; James T. A. Jones; Marc Schmidtmann; Tom Hasell; Samantha Y. Chong; Kim E. Jelfs; Linjiang Chen; Andrew I. Cooper
Trapping virtual pores by crystal retro-engineering
Nature Chemistry, 2015, 7, 153-159
1551326 CIFC216 H237 N35R 3 2 :H20.6071; 20.6071; 44.949
90; 90; 120
16530.4Marc A. Little; Michael E. Briggs; James T. A. Jones; Marc Schmidtmann; Tom Hasell; Samantha Y. Chong; Kim E. Jelfs; Linjiang Chen; Andrew I. Cooper
Trapping virtual pores by crystal retro-engineering
Nature Chemistry, 2015, 7, 153-159
1551327 CIFC226 H268 Cl6 N35 O8R 3 2 :H20.5397; 20.5397; 44.747
90; 90; 120
16348.7Marc A. Little; Michael E. Briggs; James T. A. Jones; Marc Schmidtmann; Tom Hasell; Samantha Y. Chong; Kim E. Jelfs; Linjiang Chen; Andrew I. Cooper
Trapping virtual pores by crystal retro-engineering
Nature Chemistry, 2015, 7, 153-159
1551328 CIFC80 H119 Cl2 N12 O9.5I 1 2 121.7305; 19.737; 22.9973
90; 105.506; 90
9504.4Marc A. Little; Michael E. Briggs; James T. A. Jones; Marc Schmidtmann; Tom Hasell; Samantha Y. Chong; Kim E. Jelfs; Linjiang Chen; Andrew I. Cooper
Trapping virtual pores by crystal retro-engineering
Nature Chemistry, 2015, 7, 153-159
1551329 CIFC83 H137 N12 O15I 1 2 121.644; 19.7822; 23.2696
90; 105.704; 90
9591.4Marc A. Little; Michael E. Briggs; James T. A. Jones; Marc Schmidtmann; Tom Hasell; Samantha Y. Chong; Kim E. Jelfs; Linjiang Chen; Andrew I. Cooper
Trapping virtual pores by crystal retro-engineering
Nature Chemistry, 2015, 7, 153-159
1551330 CIFC72 H84 N12C 1 2 133.883; 20.467; 25.712
90; 95.249; 90
17756Marc A. Little; Michael E. Briggs; James T. A. Jones; Marc Schmidtmann; Tom Hasell; Samantha Y. Chong; Kim E. Jelfs; Linjiang Chen; Andrew I. Cooper
Trapping virtual pores by crystal retro-engineering
Nature Chemistry, 2015, 7, 153-159
1551331 CIFC155.5 H234 Cl N24 O21.5C 1 2 134.692; 19.8867; 26.6702
90; 93.334; 90
18369Marc A. Little; Michael E. Briggs; James T. A. Jones; Marc Schmidtmann; Tom Hasell; Samantha Y. Chong; Kim E. Jelfs; Linjiang Chen; Andrew I. Cooper
Trapping virtual pores by crystal retro-engineering
Nature Chemistry, 2015, 7, 153-159
1551332 CIFC154 H208.5 Cl9 N24 O11.75C 1 2 134.796; 19.8984; 26.7636
90; 93.452; 90
18497Marc A. Little; Michael E. Briggs; James T. A. Jones; Marc Schmidtmann; Tom Hasell; Samantha Y. Chong; Kim E. Jelfs; Linjiang Chen; Andrew I. Cooper
Trapping virtual pores by crystal retro-engineering
Nature Chemistry, 2015, 7, 153-159
1551333 CIFC108 H252 N24 O45P 3 c 115.8532; 15.8532; 33.088
90; 90; 120
7201.7Marc A. Little; Michael E. Briggs; James T. A. Jones; Marc Schmidtmann; Tom Hasell; Samantha Y. Chong; Kim E. Jelfs; Linjiang Chen; Andrew I. Cooper
Trapping virtual pores by crystal retro-engineering
Nature Chemistry, 2015, 7, 153-159
1551334 CIFC19 H21 Br O10C 1 2 128.107; 6.679; 13.398
90; 117.776; 90
2225.4Tobias N. Hoheisel; Stephen Schrettl; Roman Marty; Tanya K. Todorova; Clemence Corminboeuf; Andrzej Sienkiewicz; Rosario Scopelliti; W. Bernd Schweizer; Holger Frauenrath
A multistep single-crystal-to-single-crystal bromodiacetylene dimerization
Nature Chemistry, 2013, 5, 327-334
1551335 CIFC19 H21 Br O10C 1 2 128.5038; 6.6628; 13.4137
90; 117.232; 90
2265.1Tobias N. Hoheisel; Stephen Schrettl; Roman Marty; Tanya K. Todorova; Clemence Corminboeuf; Andrzej Sienkiewicz; Rosario Scopelliti; W. Bernd Schweizer; Holger Frauenrath
A multistep single-crystal-to-single-crystal bromodiacetylene dimerization
Nature Chemistry, 2013, 5, 327-334
1551336 CIFC19 H21 Br O10P 21 21 217.2835; 12.3657; 24.4205
90; 90; 90
2199.45Tobias N. Hoheisel; Stephen Schrettl; Roman Marty; Tanya K. Todorova; Clemence Corminboeuf; Andrzej Sienkiewicz; Rosario Scopelliti; W. Bernd Schweizer; Holger Frauenrath
A multistep single-crystal-to-single-crystal bromodiacetylene dimerization
Nature Chemistry, 2013, 5, 327-334
1551337 CIFC260 H304 N32 O83 P16P -122.058; 36.936; 39.49
91.137; 101.582; 105.808
30232Krzysztof Ziach; Celine Chollet; Vincent Parissi; Panchami Prabhakaran; Mathieu Marchivie; Valentina Corvaglia; Partha Pratim Bose; Katta Laxmi-Reddy; Frederic Godde; Jean-Marie Schmitter; Stephane Chaignepain; Philippe Pourquier; Ivan Huc
Single helically folded aromatic oligoamides that mimic the charge surface of double-stranded B-DNA
Nature Chemistry, 2018, 10, 511-518
1551338 CIFC259 H311 Cl3 N32 O83 P16 SiC 1 2/c 142.984; 52.9718; 33.962
90; 126.304; 90
62319Krzysztof Ziach; Celine Chollet; Vincent Parissi; Panchami Prabhakaran; Mathieu Marchivie; Valentina Corvaglia; Partha Pratim Bose; Katta Laxmi-Reddy; Frederic Godde; Jean-Marie Schmitter; Stephane Chaignepain; Philippe Pourquier; Ivan Huc
Single helically folded aromatic oligoamides that mimic the charge surface of double-stranded B-DNA
Nature Chemistry, 2018, 10, 511-518
1551339 CIFC508 H592 N64 O163 P32P -126.415; 28.192; 42.64
85.65; 75.41; 75.48
29745Krzysztof Ziach; Celine Chollet; Vincent Parissi; Panchami Prabhakaran; Mathieu Marchivie; Valentina Corvaglia; Partha Pratim Bose; Katta Laxmi-Reddy; Frederic Godde; Jean-Marie Schmitter; Stephane Chaignepain; Philippe Pourquier; Ivan Huc
Single helically folded aromatic oligoamides that mimic the charge surface of double-stranded B-DNA
Nature Chemistry, 2018, 10, 511-518
1551340 CIFC140 H168 N16 O39 P8P -117.006; 20.157; 24.463
75.85; 69.66; 85.93
7623Krzysztof Ziach; Celine Chollet; Vincent Parissi; Panchami Prabhakaran; Mathieu Marchivie; Valentina Corvaglia; Partha Pratim Bose; Katta Laxmi-Reddy; Frederic Godde; Jean-Marie Schmitter; Stephane Chaignepain; Philippe Pourquier; Ivan Huc
Single helically folded aromatic oligoamides that mimic the charge surface of double-stranded B-DNA
Nature Chemistry, 2018, 10, 511-518
1551341 CIFC127 H128 Cl0 N20 O24P 1 21/c 117.041; 52.198; 14.911
90; 106.91; 90
12690Soumen De; Bo Chi; Thierry Granier; Ting Qi; Victor Maurizot; Ivan Huc
Designing cooperatively folded abiotic uni- and multimolecular helix bundles
Nature Chemistry, 2018, 10, 51-57
1551342 CIFC238 H226 N40 O44P 1 21/n 127.392; 35.87; 28.337
90; 90.14; 90
27842Soumen De; Bo Chi; Thierry Granier; Ting Qi; Victor Maurizot; Ivan Huc
Designing cooperatively folded abiotic uni- and multimolecular helix bundles
Nature Chemistry, 2018, 10, 51-57
1551343 CIFC488 H460 Cl12 N80 O88P 329.331; 29.331; 59.183
90; 90; 120
44094Soumen De; Bo Chi; Thierry Granier; Ting Qi; Victor Maurizot; Ivan Huc
Designing cooperatively folded abiotic uni- and multimolecular helix bundles
Nature Chemistry, 2018, 10, 51-57
1551344 CIFC256 H246 N44 O46P -119.1113; 28.614; 35.75
71.488; 81.839; 75.011
17869Soumen De; Bo Chi; Thierry Granier; Ting Qi; Victor Maurizot; Ivan Huc
Designing cooperatively folded abiotic uni- and multimolecular helix bundles
Nature Chemistry, 2018, 10, 51-57
1551345 CIFC312 H313 Cl24 N44 O50P 118.008; 18.419; 30.513
78.68; 88.33; 65.83
9039Soumen De; Bo Chi; Thierry Granier; Ting Qi; Victor Maurizot; Ivan Huc
Designing cooperatively folded abiotic uni- and multimolecular helix bundles
Nature Chemistry, 2018, 10, 51-57
1551346 CIFC112 H104 N18 O21P 125.286; 26.901; 27.418
108.71; 107.77; 109.81
14718Soumen De; Bo Chi; Thierry Granier; Ting Qi; Victor Maurizot; Ivan Huc
Designing cooperatively folded abiotic uni- and multimolecular helix bundles
Nature Chemistry, 2018, 10, 51-57
1551355 CIFC38 H34 F2 N2 O9P 1 21 17.4858; 21.374; 21.5083
90; 91.545; 90
3440.1Pauline Adler; Christopher J. Teskey; Daniel Kaiser; Marion Holy; Harald H. Sitte; Nuno Maulide
Alpha-Fluorination of carbonyls with nucleophilic fluorine
Nature Chemistry, 2019, 11, 329-334
1551356 CIFC36 H30 Cl2 F12 Mn N4P 659.2109; 9.2109; 76.327
90; 90; 120
5608.1Jinpeng Zhao; Takeshi Nanjo; Emilio C. de Lucca Jr; M. Christina White
Chemoselective methylene oxidation in aromatic molecules
Nature Chemistry, 2019, 11, 213-221
1551357 CIFC24 H32 F12 Mn N6 Sb2P 32 2 110.5506; 10.5506; 25.221
90; 90; 120
2431.35Jinpeng Zhao; Takeshi Nanjo; Emilio C. de Lucca Jr; M. Christina White
Chemoselective methylene oxidation in aromatic molecules
Nature Chemistry, 2019, 11, 213-221
1551358 CIFC27 H32 O7I 1 2 110.7987; 9.1936; 27.3628
90; 97.543; 90
2693.04Jinpeng Zhao; Takeshi Nanjo; Emilio C. de Lucca Jr; M. Christina White
Chemoselective methylene oxidation in aromatic molecules
Nature Chemistry, 2019, 11, 213-221
1551359 CIFC29 H37 O8.5P 1 21 110.7688; 16.7429; 15.5965
90; 101.666; 90
2753.97Jinpeng Zhao; Takeshi Nanjo; Emilio C. de Lucca Jr; M. Christina White
Chemoselective methylene oxidation in aromatic molecules
Nature Chemistry, 2019, 11, 213-221
1551362 CIFC12 H10 N2 O2 SP -17.4654; 8.3783; 17.0551
97.595; 100.424; 90.636
1039.27Xiaoyan Wang; Linjiang Chen; Samantha Y. Chong; Marc A. Little; Yongzhen Wu; Wei-Hong Zhu; Rob Clowes; Yong Yan; Martijn A. Zwijnenburg; Reiner Sebastian Sprick; Andrew I. Cooper
Sulfone-containing covalent organic frameworks for photocatalytic hydrogen evolution from water
Nature Chemistry, 2018, 10, 1180-1189
1551363 CIFC18 H12 N2 O4 S2P 1 21/c 15.8666; 10.0313; 13.5015
90; 97.082; 90
788.5Xiaoyan Wang; Linjiang Chen; Samantha Y. Chong; Marc A. Little; Yongzhen Wu; Wei-Hong Zhu; Rob Clowes; Yong Yan; Martijn A. Zwijnenburg; Reiner Sebastian Sprick; Andrew I. Cooper
Sulfone-containing covalent organic frameworks for photocatalytic hydrogen evolution from water
Nature Chemistry, 2018, 10, 1180-1189
1551364 CIFC36 H30 Cl2 Co N6 O8P -19.757; 19.778; 20.491
113.73; 95.26; 90.27
3600.9Imogen A. Riddell; Maarten M. J. Smulders; Jack K. Clegg; Yana R. Hristova; Boris Breiner; John D. Thoburn; Jonathan R. Nitschke
Anion-induced reconstitution of a self-assembling system to express a chloride-binding Co10L15 pentagonal prism
Nature Chemistry, 2012, 4, 751-756
1551365 CIFC390 H330 Cl20 Co10 N60 O76P 1 2/n 121.469; 31.178; 34.437
90; 96.87; 90
22885Imogen A. Riddell; Maarten M. J. Smulders; Jack K. Clegg; Yana R. Hristova; Boris Breiner; John D. Thoburn; Jonathan R. Nitschke
Anion-induced reconstitution of a self-assembling system to express a chloride-binding Co10L15 pentagonal prism
Nature Chemistry, 2012, 4, 751-756
1551366 CIFC422 H343.5 Cl Co10 F114 N76 O46 P7.5 S23F d d d :270.5877; 79.1494; 80.8163
90; 90; 90
451519Imogen A. Riddell; Maarten M. J. Smulders; Jack K. Clegg; Yana R. Hristova; Boris Breiner; John D. Thoburn; Jonathan R. Nitschke
Anion-induced reconstitution of a self-assembling system to express a chloride-binding Co10L15 pentagonal prism
Nature Chemistry, 2012, 4, 751-756
1551367 CIFC423 H345 Cl Co10 F111 N76 O47 P7 S23F d d d :270.759; 79.508; 81.13
90; 90; 90
456430Imogen A. Riddell; Maarten M. J. Smulders; Jack K. Clegg; Yana R. Hristova; Boris Breiner; John D. Thoburn; Jonathan R. Nitschke
Anion-induced reconstitution of a self-assembling system to express a chloride-binding Co10L15 pentagonal prism
Nature Chemistry, 2012, 4, 751-756
1551368 CIFC188 H168 Co4 F24 N34 O24 S8P -6 2 c24.7578; 24.7578; 41.4172
90; 90; 120
21985.5Imogen A. Riddell; Maarten M. J. Smulders; Jack K. Clegg; Yana R. Hristova; Boris Breiner; John D. Thoburn; Jonathan R. Nitschke
Anion-induced reconstitution of a self-assembling system to express a chloride-binding Co10L15 pentagonal prism
Nature Chemistry, 2012, 4, 751-756
1551369 CIFC144.25 H160 Br0.8 N36.25 O69.5 S2P -119.8457; 23.3538; 27.1601
106.247; 106.538; 101.356
11049.9Joseph M. Rogers; Sunbum Kwon; Simon J. Dawson; Pradeep K. Mandal; Hiroaki Suga; Ivan Huc
Ribosomal synthesis and folding of peptide-helical aromatic foldamer hybrids
Nature Chemistry, 2018, 10, 405-412
1551370 CIFF6 K6 Mn Na3 O76 W17C 1 2/c 122.586; 12.292; 29.421
90; 92.34; 90
8161Roy E. Schreiber; Lothar Houben; Sharon G. Wolf; Gregory Leitus; Zhong-Ling Lang; Jorge J. Carbo; Josep M. Poblet; Ronny Neumann
Real-time molecular scale observation of crystal formation
Nature Chemistry, 2017, 9, 369-373
1551371 CIFCs11 F12 K5 Mn2 Na2 O128 W34C m c e17.983; 18.413; 22.333
90; 90; 90
7395Roy E. Schreiber; Lothar Houben; Sharon G. Wolf; Gregory Leitus; Zhong-Ling Lang; Jorge J. Carbo; Josep M. Poblet; Ronny Neumann
Real-time molecular scale observation of crystal formation
Nature Chemistry, 2017, 9, 369-373
1551372 CIFC28 H42 N7 O6.5P 41 21 210.4819; 10.4819; 57.62
90; 90; 90
6330.7John R. Frost; Conor C. G. Scully; Andrei K. Yudin
Oxadiazole grafts in peptide macrocycles
Nature Chemistry, 2016, 8, 1105-1111
1551373 CIFC168 H88 N26 O18R 3 :H19.3322; 19.3322; 28.9191
90; 90; 120
9360Max J. Kory; Michael Worle; Thomas Weber; Payam Payamyar; Stan W. van de Poll; Julia Dshemuchadse; Nils Trapp; Dieter Schluter
Gram-scale synthesis of two-dimensional polymer crystals and their structure analysis by X-ray diffraction
Nature Chemistry, 2014, 6, 779-784
1551374 CIFC168 H88 N26 O18R 3 :H19.3695; 19.3695; 28.9712
90; 90; 120
9413.1Max J. Kory; Michael Worle; Thomas Weber; Payam Payamyar; Stan W. van de Poll; Julia Dshemuchadse; Nils Trapp; Dieter Schluter
Gram-scale synthesis of two-dimensional polymer crystals and their structure analysis by X-ray diffraction
Nature Chemistry, 2014, 6, 779-784
1551375 CIFC168 H88 N26 O18R 3 :H19.4976; 19.4976; 29.0508
90; 90; 120
9564.3Max J. Kory; Michael Worle; Thomas Weber; Payam Payamyar; Stan W. van de Poll; Julia Dshemuchadse; Nils Trapp; Dieter Schluter
Gram-scale synthesis of two-dimensional polymer crystals and their structure analysis by X-ray diffraction
Nature Chemistry, 2014, 6, 779-784
1551376 CIFC162 H84 N24 O18P 3119.5973; 19.5973; 27.8613
90; 90; 120
9266.7Max J. Kory; Michael Worle; Thomas Weber; Payam Payamyar; Stan W. van de Poll; Julia Dshemuchadse; Nils Trapp; Dieter Schluter
Gram-scale synthesis of two-dimensional polymer crystals and their structure analysis by X-ray diffraction
Nature Chemistry, 2014, 6, 779-784
1551377 CIFC168 H88 N26 O18R 3 :H19.4393; 19.4393; 28.547
90; 90; 120
9342.3Max J. Kory; Michael Worle; Thomas Weber; Payam Payamyar; Stan W. van de Poll; Julia Dshemuchadse; Nils Trapp; Dieter Schluter
Gram-scale synthesis of two-dimensional polymer crystals and their structure analysis by X-ray diffraction
Nature Chemistry, 2014, 6, 779-784
1551384 CIFC206 H209 N40 O40P 117.018; 19.782; 33.512
81.76; 88.25; 82.41
11067Nagula Chandramouli; Yann Ferrand; Guillaume Lautrette; Brice Kauffmann; Cameron David Mackereth; Michel Laguerre; Didier Dubreuil; Ivan Huc
Iterative design of a helically folded aromatic oligoamide sequence for the selective encapsulation of fructose
Nature Chemistry, 2015, 7, 334-341
1551385 CIFC206 H210 N40 O40P 1 21/c 124.443; 21.3714; 46.5745
90; 101.926; 90
23804.5Nagula Chandramouli; Yann Ferrand; Guillaume Lautrette; Brice Kauffmann; Cameron David Mackereth; Michel Laguerre; Didier Dubreuil; Ivan Huc
Iterative design of a helically folded aromatic oligoamide sequence for the selective encapsulation of fructose
Nature Chemistry, 2015, 7, 334-341
1551386 CIFC412 H420 N80 O82P -129.18; 31.72; 32.14
69.39; 73.89; 68.09
25465Nagula Chandramouli; Yann Ferrand; Guillaume Lautrette; Brice Kauffmann; Cameron David Mackereth; Michel Laguerre; Didier Dubreuil; Ivan Huc
Iterative design of a helically folded aromatic oligoamide sequence for the selective encapsulation of fructose
Nature Chemistry, 2015, 7, 334-341
1551387 CIFC205 H206 N40 O45P -120.683; 24.6762; 25.9639
117.362; 93.86; 103.065
11237.4Nagula Chandramouli; Yann Ferrand; Guillaume Lautrette; Brice Kauffmann; Cameron David Mackereth; Michel Laguerre; Didier Dubreuil; Ivan Huc
Iterative design of a helically folded aromatic oligoamide sequence for the selective encapsulation of fructose
Nature Chemistry, 2015, 7, 334-341
1551388 CIFC188 H186 Cl0 F N36 O36P -117.5372; 19.8099; 33.578
105.041; 90.103; 108.356
10648Nagula Chandramouli; Yann Ferrand; Guillaume Lautrette; Brice Kauffmann; Cameron David Mackereth; Michel Laguerre; Didier Dubreuil; Ivan Huc
Iterative design of a helically folded aromatic oligoamide sequence for the selective encapsulation of fructose
Nature Chemistry, 2015, 7, 334-341
1551389 CIFC191 H189 Cl6 F2 N35 O36P -117.554; 19.747; 33.398
74.98; 89.62; 71.99
10600Nagula Chandramouli; Yann Ferrand; Guillaume Lautrette; Brice Kauffmann; Cameron David Mackereth; Michel Laguerre; Didier Dubreuil; Ivan Huc
Iterative design of a helically folded aromatic oligoamide sequence for the selective encapsulation of fructose
Nature Chemistry, 2015, 7, 334-341
1551390 CIFC65 H65 N5P -113.52; 14.217; 17.557
103.495; 103.098; 102.405
3065.8Semin Lee; Chun-Hsing Chen; Amar H. Flood
A pentagonal cyanostar macrocycle with cyanostilbene CH donors binds anions and forms dialkylphosphate [3]rotaxanes
Nature Chemistry, 2013, 5, 704-710
1551391 CIFC174 H196 N17 O13.5 PP -117.781; 18.62; 31.361
74.262; 76.314; 66.192
9048Semin Lee; Chun-Hsing Chen; Amar H. Flood
A pentagonal cyanostar macrocycle with cyanostilbene CH donors binds anions and forms dialkylphosphate [3]rotaxanes
Nature Chemistry, 2013, 5, 704-710
1551392 CIFC628.5 H496.5 B115.5 Co12 F81 N117 O54 S27R -3 :H48.517; 48.517; 64.134
90; 90; 120
130740Felix J. Rizzuto; Jonathan R. Nitschke
Stereochemical plasticity modulates cooperative binding in a CoII12L6 cuboctahedron
Nature Chemistry, 2017, 10, 903-908
1551393 CIFC764 H707 B264 Co12 N115 OP -126.438; 30.374; 31.047
67.3; 84.86; 78.93
22569Felix J. Rizzuto; Jonathan R. Nitschke
Stereochemical plasticity modulates cooperative binding in a CoII12L6 cuboctahedron
Nature Chemistry, 2017, 10, 903-908
1551394 CIFC618 H355.5 B5.5 Co12 F133 N117 O74 S37P 1 21/n 140.2042; 54.2465; 40.2935
90; 90.408; 90
87875Felix J. Rizzuto; Jonathan R. Nitschke
Stereochemical plasticity modulates cooperative binding in a CoII12L6 cuboctahedron
Nature Chemistry, 2017, 10, 903-908
1551395 CIFC14 H31 Cl N5 Ni O6P c a 2117.8908; 7.3739; 15.4074
90; 90; 90
2032.6Jaeheung Cho; Ritimukta Sarangi; Jamespandi Annaraj; Sung Yeon Kim; Minoru Kubo; Takashi Ogura; Edward I. Solomon; Wonwoo Nam
Geometric and electronic structure and reactivity of a mononuclear 'side-on' nickel(iii)-peroxo complex
Nature Chemistry, 2009, 1, 568-572
1551396 CIFC14 Cl2 N5 Ni O8P 4/n m m :28.969; 8.969; 14.521
90; 90; 90
1168.1Jaeheung Cho; Ritimukta Sarangi; Jamespandi Annaraj; Sung Yeon Kim; Minoru Kubo; Takashi Ogura; Edward I. Solomon; Wonwoo Nam
Geometric and electronic structure and reactivity of a mononuclear 'side-on' nickel(iii)-peroxo complex
Nature Chemistry, 2009, 1, 568-572
1551397 CIFC14 H10 Fe N6 PtC m m m7.5075; 15.2605; 7.4436
90; 90; 90
852.8Shun Sakaida; Kazuya Otsubo; Osami Sakata; Chulho Song; Akihiko Fujiwara; Masaki Takata; Hiroshi Kitagawa
Crystalline coordination framework endowed with dynamic gate-opening behaviour by being downsized to a thin film
Nature Chemistry, 2016, 8, 377-383
1551398 CIFC17 H18 N2 O3P 1 21 110.5311; 6.7935; 10.9017
90; 112.687; 90
719.593David L. Niquille; Douglas A. Hansen; Takahiro Mori; David Fercher; Hajo Kries; Donald Hilvert
Nonribosomal biosynthesis of backbone-modified peptides
Nature Chemistry, 2018, 10, 282-287
1551399 CIFC14 H16 N2 O2P 21 21 217.1977; 9.65236; 18.11426
90; 90; 90
1258.48David L. Niquille; Douglas A. Hansen; Takahiro Mori; David Fercher; Hajo Kries; Donald Hilvert
Nonribosomal biosynthesis of backbone-modified peptides
Nature Chemistry, 2018, 10, 282-287
1551400 CIFC68 H53 B Cl4 F24 N3 P S2P -114.37; 15.135; 19.376
76.883; 70.416; 65.366
3590.2Scott E. Denmark; Eduard Hartmann; David J. P. Kornfilt; Hao Wang
Mechanistic, crystallographic, and computational studies on the catalytic, enantioselective sulfenofunctionalization of alkenes
Nature Chemistry, 2014, 6, 1056-1064
1551401 CIFC66 H76 Cl12 N6 O2 P2 Sb2 Se2P -112.005; 12.2783; 14.5779
67.081; 73.258; 88.706
1885.47Scott E. Denmark; Eduard Hartmann; David J. P. Kornfilt; Hao Wang
Mechanistic, crystallographic, and computational studies on the catalytic, enantioselective sulfenofunctionalization of alkenes
Nature Chemistry, 2014, 6, 1056-1064
1551402 CIFC448 H415 B7 F6 Fe6 N40 O15 PP b a m35.1918; 47.1545; 33.4757
90; 90; 90
55551David A. Leigh; Robin G. Pritchard; Alexander J. Stephens
A Star of David catenane
Nature Chemistry, 2013, 6, 978-982
1551403 CIFC29 H29 F6 N5 O8 S2 ZnP 1 21/c 113.9006; 16.113; 17.2618
90; 93.095; 90
3860.7Meghan B. Ward; Andreas Scheitler; Meng Yu; Laura Senft; Annika S. Zillmann; John D. Gorden; Dean D. Schwartz; Ivana Ivanovic-Burmazovic; Christian R. Goldsmith
Superoxide dismutase activity enabled by a redox-active ligand rather than metal
Nature Chemistry, 2018, 10, 1207-1212
1551404 CIF
HKL
C31 H34 F6 N6 O9 S2 ZnP c a 2116.6985; 12.4092; 17.7201
90; 90; 90
3671.9Meghan B. Ward; Andreas Scheitler; Meng Yu; Laura Senft; Annika S. Zillmann; John D. Gorden; Dean D. Schwartz; Ivana Ivanovic-Burmazovic; Christian R. Goldsmith
Superoxide dismutase activity enabled by a redox-active ligand rather than metal
Nature Chemistry, 2018, 10, 1207-1212
1551405 CIF
HKL
C28 H33 N5 O3P -110.2291; 11.3937; 12.5182
93.769; 113.627; 103.02
1282.25Meghan B. Ward; Andreas Scheitler; Meng Yu; Laura Senft; Annika S. Zillmann; John D. Gorden; Dean D. Schwartz; Ivana Ivanovic-Burmazovic; Christian R. Goldsmith
Superoxide dismutase activity enabled by a redox-active ligand rather than metal
Nature Chemistry, 2018, 10, 1207-1212
1551413 CIFC21 H15 N3 O3 PdP 1 n 115.0023; 6.9693; 17.7197
90; 112.945; 90
1706.1Van T. Tran; John A. Gurak Jr; Kin S. Yang; Keary M. Engle
Activation of diverse carbon-heteroatom and carbon-carbon bonds via palladium(ii)-catalysed beta-X elimination
Nature Chemistry, 2018, 10, 1126-1133
1551414 CIFC46 H38 N6 O10 Pd2P -110.5489; 10.6184; 19.274
76.628; 84.772; 81.899
2075.6Van T. Tran; John A. Gurak Jr; Kin S. Yang; Keary M. Engle
Activation of diverse carbon-heteroatom and carbon-carbon bonds via palladium(ii)-catalysed beta-X elimination
Nature Chemistry, 2018, 10, 1126-1133
1551415 CIFC194 H146 Br8 Cl17 Fe6.5 N40 O21P -116.0089; 25.8622; 29.879
89.88; 89.852; 72.396
11791.3Christopher S. Wood; Tanya K. Ronson; Ana M. Belenguer; Julian J. Holstein; Jonathan R. Nitschke
Two-stage directed self-assembly of a cyclic [3]catenane
Nature Chemistry, 2015, 7, 354-358
1551416 CIFC196 H165 Cl12 Fe6 N35 O24P 1 21/n 133.0443; 19.184; 41.84
90; 111.339; 90
24705Christopher S. Wood; Tanya K. Ronson; Ana M. Belenguer; Julian J. Holstein; Jonathan R. Nitschke
Two-stage directed self-assembly of a cyclic [3]catenane
Nature Chemistry, 2015, 7, 354-358
1551417 CIFC192 H150 F24 Fe6 N36 O12 P4 S6C 1 c 142.114; 54.516; 14.0878
90; 107.763; 90
30802Christopher S. Wood; Tanya K. Ronson; Ana M. Belenguer; Julian J. Holstein; Jonathan R. Nitschke
Two-stage directed self-assembly of a cyclic [3]catenane
Nature Chemistry, 2015, 7, 354-358
1551418 CIFC234 H234 Br12.75 Fe6 K0.75 N30 O42.25C 1 2/c 159.465; 16.8956; 62.436
90; 116.189; 90
56290Christopher S. Wood; Tanya K. Ronson; Ana M. Belenguer; Julian J. Holstein; Jonathan R. Nitschke
Two-stage directed self-assembly of a cyclic [3]catenane
Nature Chemistry, 2015, 7, 354-358
1551419 CIFC37 H50 N2 O11P 1 21 110.5002; 10.3073; 16.5868
90; 93.853; 90
1791.1Russell R. A. Kitson; Chuan-Hsin Chang; Rui Xiong; Huw E. L. Williams; Adrienne L. Davis; William Lewis; Donna L. Dehn; David Siegel; S. Mark Roe; Chrisostomos Prodromou; David Ross; Christopher J. Moody
Synthesis of 19-substituted geldanamycins with altered conformations and their binding to heat shock protein Hsp90
Nature Chemistry, 2013, 5, 307-314
1551420 CIFC16 H20 Al2 O16I 41 2 214.82958; 14.82958; 11.773164
90; 90; 90
2589.11Sihai Yang; Junliang Sun; Anibal J. Ramirez-Cuesta; Samantha K. Callear; William I. F. David; Daniel P. Anderson; Ruth Newby; Alexander J. Blake; Julia E. Parker; Chiu C. Tang; Martin Schroder
Selectivity and direct visualization of carbon dioxide and sulfur dioxide in a decorated porous host
Nature Chemistry, 2012, 4, 887-894
1551421 CIFC19.2 H8 Al2 O16.4I 41 2 214.824318; 14.824318; 11.805704
90; 90; 90
2594.43Sihai Yang; Junliang Sun; Anibal J. Ramirez-Cuesta; Samantha K. Callear; William I. F. David; Daniel P. Anderson; Ruth Newby; Alexander J. Blake; Julia E. Parker; Chiu C. Tang; Martin Schroder
Selectivity and direct visualization of carbon dioxide and sulfur dioxide in a decorated porous host
Nature Chemistry, 2012, 4, 887-894
1551422 CIFC16 H8 Al2 O18 S4I 41 2 214.84741; 14.84741; 11.805642
90; 90; 90
2602.5Sihai Yang; Junliang Sun; Anibal J. Ramirez-Cuesta; Samantha K. Callear; William I. F. David; Daniel P. Anderson; Ruth Newby; Alexander J. Blake; Julia E. Parker; Chiu C. Tang; Martin Schroder
Selectivity and direct visualization of carbon dioxide and sulfur dioxide in a decorated porous host
Nature Chemistry, 2012, 4, 887-894
1551423 CIFC80 H104 Ag12 F12 N8 O16.8 S8I -4 2 m17.2768; 17.2768; 20.4482
90; 90; 90
6103.54Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551424 CIFC88 H128 Ag12 F12 N8 O12 S8I -4 2 m17.2793; 17.2793; 19.8246
90; 90; 90
5919.1Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551425 CIFC84 H108 Ag12 Cl12 F12 N8 O8 S8I -4 2 m17.1887; 17.1887; 20.4219
90; 90; 90
6033.7Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551426 CIFC82.4 H107.6 Ag12 F12 N9.2 O6 S8I -4 2 m17.3814; 17.3814; 20.0977
90; 90; 90
6071.78Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551427 CIFC83 H110 Ag12 F12 N8 O9 S8I -4 2 m17.27; 17.27; 20.04
90; 90; 90
5977Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551428 CIFC98 H140 Ag12 F12 N8 O8 S8I -4 2 m17.2498; 17.2498; 21.101
90; 90; 90
6278.7Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551429 CIFC50 H75 Ag12 F18 N7 O12 S6P -115.4518; 15.8621; 17.9312
91.3274; 95.0852; 94.9884
4358.91Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551430 CIFC80 H104 Ag12 F12 N8 O8 S8I -4 2 m17.34149; 17.34149; 20.1671
90; 90; 90
6064.8Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551431 CIFC80 H104 Ag12 F12 N8 O8 S8I -4 2 m17.29649; 17.29649; 19.8753
90; 90; 90
5946.07Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551432 CIFC80 H104 Ag12 F12 N8 O8 S8I -4 2 m17.33048; 17.33048; 20.251
90; 90; 90
6082.3Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551433 CIFC96 H136 Ag12 F12 N8 O16 S8I -4 2 m17.1785; 17.1785; 20.8487
90; 90; 90
6152.47Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551434 CIFC104 H128 Ag12 F12 N8 O8 S8I -4 2 m17.298; 17.298; 20.5393
90; 90; 90
6145.79Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551435 CIFC94 H120 Ag12 F12 N8 O8 S8I -4 2 m17.26652; 17.26652; 20.5352
90; 90; 90
6122.21Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551436 CIFC104 H124 Ag12 F16 N8 O8 S8I -4 2 m17.3073; 17.3073; 20.4745
90; 90; 90
6133Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551437 CIFC92 H114 Ag12 Cl2 F12 N8 O8 S8I -4 2 m17.23734; 17.23734; 20.5923
90; 90; 90
6118.51Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551438 CIFC92 H114 Ag12 Br2 F12 N8 O8 S8I -4 2 m17.2292; 17.2292; 20.5453
90; 90; 90
6098.8Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551439 CIFC92 H114 Ag12 F12 I2 N8 O8 S8I -4 2 m17.2105; 17.2105; 20.6982
90; 90; 90
6130.8Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551440 CIFC96 H124 Ag12 F12 N8 O8 S8I -4 2 m17.2348; 17.2348; 20.8923
90; 90; 90
6205.8Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551441 CIFC96 H124 Ag12 F12 N8 O8 S8I -4 2 m17.2529; 17.2529; 20.6795
90; 90; 90
6155.5Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551442 CIFC96 H124 Ag12 F12 N8 O8 S8I -4 2 m17.2603; 17.2603; 20.5849
90; 90; 90
6132.61Ren-Wu Huang; Yong-Sheng Wei; Xi-Yan Dong; Xiao-Hui Wu; Chen-Xia Du; Shuang-Quan Zang; Thomas C. W. Mak
Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal-organic framework
Nature Chemistry, 2017, 9, 689-697
1551446 CIFC31 H44 Cl N7 O8P 1 21/n 112.1881; 24.5629; 12.5908
90; 117.009; 90
3358.27Hongyu Li; Hennie Valkenier; Luke W. Judd; Peter R. Brotherhood; Sabir Hussain; James A. Cooper; Ondrej Jurcek; Hazel A. Sparkes; David N. Sheppard; Anthony P. Davis
Efficient, non-toxic anion transport by synthetic carriers in cells and epithelia
Nature Chemistry, 2016, 8, 24-32
1551447 CIF
HKL
C20 H10 Br4C 1 2/c 121.255; 5.7151; 18.8051
90; 124.093; 90
1891.7Niko Pavlicek; Przemyslaw Gawel; Daniel R. Kohn; Zsolt Majzik; Yaoyao Xiong; Gerhard Meyer; Harry L. Anderson; Leo Gross
Polyyne formation via skeletal rearrangement induced by atomic manipulation
Nature Chemistry, 2018, 10, 853-858
1551448 CIF
HKL
C24 H10 Br4P 1 2/c 112.0069; 3.9729; 22.0798
90; 100.208; 90
1036.58Niko Pavlicek; Przemyslaw Gawel; Daniel R. Kohn; Zsolt Majzik; Yaoyao Xiong; Gerhard Meyer; Harry L. Anderson; Leo Gross
Polyyne formation via skeletal rearrangement induced by atomic manipulation
Nature Chemistry, 2018, 10, 853-858
1551449 CIF
HKL
C28 H10 Br4P 1 21/n 110.6051; 4.9313; 23.4977
90; 98.092; 90
1216.62Niko Pavlicek; Przemyslaw Gawel; Daniel R. Kohn; Zsolt Majzik; Yaoyao Xiong; Gerhard Meyer; Harry L. Anderson; Leo Gross
Polyyne formation via skeletal rearrangement induced by atomic manipulation
Nature Chemistry, 2018, 10, 853-858
1551450 CIFC46 H30P 1 21/n 19.5942; 27.26; 12.3336
90; 103.662; 90
3134.4Shane R. Yost; Jiye Lee; Mark W. B. Wilson; Tony Wu; David P. McMahon; Rebecca R. Parkhurst; Nicholas J. Thompson; Daniel N. Congreve; Akshay Rao; Kerr Johnson; Matthew Y. Sfeir; Moungi G. Bawendi; Timothy M. Swager; Richard H. Friend; Marc A. Baldo; Troy Van Voorhis
A transferable model for singlet-fission kinetics
Nature Chemistry, 2014, 6, 492-497
1551451 CIFC50 H30 Cl4 S2P -19.4146; 10.2146; 10.8759
86.298; 79.729; 65.456
936.1Shane R. Yost; Jiye Lee; Mark W. B. Wilson; Tony Wu; David P. McMahon; Rebecca R. Parkhurst; Nicholas J. Thompson; Daniel N. Congreve; Akshay Rao; Kerr Johnson; Matthew Y. Sfeir; Moungi G. Bawendi; Timothy M. Swager; Richard H. Friend; Marc A. Baldo; Troy Van Voorhis
A transferable model for singlet-fission kinetics
Nature Chemistry, 2014, 6, 492-497
1551452 CIFC26 H16 S2P 1 21/c 114.8532; 17.3921; 7.2295
90; 90.676; 90
1867.5Shane R. Yost; Jiye Lee; Mark W. B. Wilson; Tony Wu; David P. McMahon; Rebecca R. Parkhurst; Nicholas J. Thompson; Daniel N. Congreve; Akshay Rao; Kerr Johnson; Matthew Y. Sfeir; Moungi G. Bawendi; Timothy M. Swager; Richard H. Friend; Marc A. Baldo; Troy Van Voorhis
A transferable model for singlet-fission kinetics
Nature Chemistry, 2014, 6, 492-497
1551453 CIFC24 H16 Al2 O10I 41 2 214.8228; 14.8228; 11.7919
90; 90; 90
2590.86Sihai Yang; Anibal J. Ramirez-Cuesta; Ruth Newby; Victoria Garcia-Sakai; Pascal Manuel; Samantha K. Callear; Stuart I. Campbell; Chiu C. Tang; Martin Schroder
Supramolecular binding and separation of hydrocarbons within a functionalized porous metal-organic framework
Nature Chemistry, 2015, 7, 121-129
1551454 CIFC21 H18 Al2 O10I 41 2 214.80469; 14.80469; 11.801726
90; 90; 90
2586.69Sihai Yang; Anibal J. Ramirez-Cuesta; Ruth Newby; Victoria Garcia-Sakai; Pascal Manuel; Samantha K. Callear; Stuart I. Campbell; Chiu C. Tang; Martin Schroder
Supramolecular binding and separation of hydrocarbons within a functionalized porous metal-organic framework
Nature Chemistry, 2015, 7, 121-129
1551455 CIFC21.4 H8 Al2 D5.4 O10I 41 2 214.785355; 14.785355; 11.77396
90; 90; 90
2573.87Sihai Yang; Anibal J. Ramirez-Cuesta; Ruth Newby; Victoria Garcia-Sakai; Pascal Manuel; Samantha K. Callear; Stuart I. Campbell; Chiu C. Tang; Martin Schroder
Supramolecular binding and separation of hydrocarbons within a functionalized porous metal-organic framework
Nature Chemistry, 2015, 7, 121-129
1551456 CIFC19.6 H8 Al2 D7.2 O10I 41 2 214.794232; 14.794232; 11.77851
90; 90; 90
2577.95Sihai Yang; Anibal J. Ramirez-Cuesta; Ruth Newby; Victoria Garcia-Sakai; Pascal Manuel; Samantha K. Callear; Stuart I. Campbell; Chiu C. Tang; Martin Schroder
Supramolecular binding and separation of hydrocarbons within a functionalized porous metal-organic framework
Nature Chemistry, 2015, 7, 121-129
1551457 CIFC18.6 H8 Al2 D6.8 O10I 41 2 214.79549; 14.79549; 11.77847
90; 90; 90
2578.38Sihai Yang; Anibal J. Ramirez-Cuesta; Ruth Newby; Victoria Garcia-Sakai; Pascal Manuel; Samantha K. Callear; Stuart I. Campbell; Chiu C. Tang; Martin Schroder
Supramolecular binding and separation of hydrocarbons within a functionalized porous metal-organic framework
Nature Chemistry, 2015, 7, 121-129
1551478 CIFC266 H240 Br12 Cu6 N18 O63 S7R -3 :H38.1839; 38.1839; 57.9645
90; 90; 120
73190.3Flora L. Thorp-Greenwood; Alexander N. Kulak; Michaele J. Hardie
An infinite chainmail of M6L6 metallacycles featuring multiple Borromean links
Nature Chemistry, 2015, 7, 526-531
1551479 CIFC44 H14 F12P -114.2786; 20.4647; 20.6937
60.5; 72.537; 85.477
5003Patrick Kissel; Daniel J. Murray; William J. Wulftange; Vincent J. Catalano; Benjamin T. King
A nanoporous two-dimensional polymer by single-crystal-to-single-crystal photopolymerization
Nature Chemistry, 2014, 6, 774-778
1551480 CIFC88 H28 F24P -114.115; 19.247; 19.52
64.137; 72.069; 84.957
4533Patrick Kissel; Daniel J. Murray; William J. Wulftange; Vincent J. Catalano; Benjamin T. King
A nanoporous two-dimensional polymer by single-crystal-to-single-crystal photopolymerization
Nature Chemistry, 2014, 6, 774-778
1551481 CIFC88 H28 F24P -114.237; 17.662; 18.188
70.106; 75.162; 84.727
4157.1Patrick Kissel; Daniel J. Murray; William J. Wulftange; Vincent J. Catalano; Benjamin T. King
A nanoporous two-dimensional polymer by single-crystal-to-single-crystal photopolymerization
Nature Chemistry, 2014, 6, 774-778
1551482 CIFC44 H14 F12P -19.014; 14.577; 15.651
94.34; 93.101; 96.984
2031.2Patrick Kissel; Daniel J. Murray; William J. Wulftange; Vincent J. Catalano; Benjamin T. King
A nanoporous two-dimensional polymer by single-crystal-to-single-crystal photopolymerization
Nature Chemistry, 2014, 6, 774-778
1551483 CIFC336 H264 F96 Fe8 N96 Sb16P -125.4839; 33.5954; 37.4035
89.22; 83.44; 80.438
31370.6Ben S. Pilgrim; Derrick A. Roberts; Thorsten G. Lohr; Tanya K. Ronson; Jonathan R. Nitschke
Signal transduction in a covalent post-assembly modification cascade
Nature Chemistry, 2017, 9, 1276-1281
1551484 CIFC232 H194.5 F48 Fe4 N42.5 O24.5 P8P -122.2379; 22.4501; 30.1489
69.385; 86.301; 78.614
13810.4Ben S. Pilgrim; Derrick A. Roberts; Thorsten G. Lohr; Tanya K. Ronson; Jonathan R. Nitschke
Signal transduction in a covalent post-assembly modification cascade
Nature Chemistry, 2017, 9, 1276-1281
1551485 CIFC279 H244.5 As8 F48 Fe4 N37.5 O24C 1 2/c 153.942; 28.539; 41.2325
90; 90.231; 90
63475Ben S. Pilgrim; Derrick A. Roberts; Thorsten G. Lohr; Tanya K. Ronson; Jonathan R. Nitschke
Signal transduction in a covalent post-assembly modification cascade
Nature Chemistry, 2017, 9, 1276-1281
1551486 CIFC30 H32 F4 I2 N6 O4P -16.3339; 15.5864; 17.6362
88.14; 83.243; 78.306
1693Lorenzo Meazza; Jonathan A. Foster; Katharina Fucke; Pierangelo Metrangolo; Giuseppe Resnati; Jonathan W. Steed
Halogen-bonding-triggered supramolecular gel formation
Nature Chemistry, 2013, 5, 42-47
1551487 CIFC22 H20 F4 I2 N6 O2P 1 21/c 14.6214; 9.4623; 28.332
90; 91.188; 90
1238.7Lorenzo Meazza; Jonathan A. Foster; Katharina Fucke; Pierangelo Metrangolo; Giuseppe Resnati; Jonathan W. Steed
Halogen-bonding-triggered supramolecular gel formation
Nature Chemistry, 2013, 5, 42-47
1551488 CIFC57 H33 F10 N6 O3P 1 2/c 119.934; 10.691; 29.55
90; 101.58; 90
6169Jackson D. Megiatto Jr; Dalvin D. Mendez-Hernandez; Marely E. Tejeda-Ferrari; Anne-Lucie Teillout; Manuel J. Llansola-Portoles; Gerdenis Kodis; Oleg G. Poluektov; Tijana Rajh; Vladimiro Mujica; Thomas L. Groy; Devens Gust; Thomas A. Moore; Ana L. Moore
A bioinspired redox relay that mimics radical interactions of the Tyr-His pairs of photosystem II
Nature Chemistry, 2014, 6, 423-428
1551489 CIFC84 H34 Cl8P -110.181; 16.443; 18.458
72.977; 83.516; 72.387
2815.1Katsuaki Kawasumi; Qianyan Zhang; Yasutomo Segawa; Lawrence T. Scott; Kenichiro Itami
A grossly warped nanographene and the consequences of multiple odd-membered-ring defects
Nature Chemistry, 2013, 5, 739-744
1551490 CIFC32 H28 O2P 1 21/c 117.444; 10.8686; 12.1775
90; 92.014; 90
2307.3Paul J. Evans; Evan R. Darzi; Ramesh Jasti
Efficient room-temperature synthesis of a highly strained carbon nanohoop fragment of buckminsterfullerene
Nature Chemistry, 2014, 6, 404-408
1551491 CIFC30 H20P b c a9.8337; 11.6263; 35.5613
90; 90; 90
4065.71Paul J. Evans; Evan R. Darzi; Ramesh Jasti
Efficient room-temperature synthesis of a highly strained carbon nanohoop fragment of buckminsterfullerene
Nature Chemistry, 2014, 6, 404-408
1551498 CIFC8 H16 Cl2 Cr N4I m m m6.90351; 6.97713; 10.82548
90; 90; 90
521.428Kasper S. Pedersen; Panagiota Perlepe; Michael L. Aubrey; Daniel N. Woodruff; Sebastian E. Reyes-Lillo; Anders Reinholdt; Laura Voigt; Zheshen Li; Kasper Borup; Mathieu Rouzieres; Dumitru Samohvalov; Fabrice Wilhelm; Andrei Rogalev; Jeffrey B. Neaton; Jeffrey R. Long; Rodolphe Clerac
Formation of the layered conductive magnet CrCl2(pyrazine)2 through redox-active coordination chemistry
Nature Chemistry, 2018, 10, 1056-1061
1551499 CIFC20 H20.5 Cl3 Cr N4 O4.25P 1 21/n 113.4559; 15.142; 23.1601
90; 93.2; 90
4711.5Kasper S. Pedersen; Panagiota Perlepe; Michael L. Aubrey; Daniel N. Woodruff; Sebastian E. Reyes-Lillo; Anders Reinholdt; Laura Voigt; Zheshen Li; Kasper Borup; Mathieu Rouzieres; Dumitru Samohvalov; Fabrice Wilhelm; Andrei Rogalev; Jeffrey B. Neaton; Jeffrey R. Long; Rodolphe Clerac
Formation of the layered conductive magnet CrCl2(pyrazine)2 through redox-active coordination chemistry
Nature Chemistry, 2018, 10, 1056-1061
1551500 CIFC384 H306 F30 Fe6 N36 O24 P5R -3 :H47.726; 47.726; 39.415
90; 90; 120
77750Liang Zhang; Alexander J. Stephens; Alina L. Nussbaumer; Jean-Francois Lemonnier; Pia Jurcek; Inigo J. Vitorica-Yrezabal; David A. Leigh
Stereoselective synthesis of a composite knot with nine crossings
Nature Chemistry, 2018, 10, 1083-1088

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