Crystallography Open Database
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Searching space group like 'P m n a'
COD ID  |
Links | Formula  |
Space group |
Cell parameters | Cell volume |
Bibliography |
|---|---|---|---|---|---|---|
| 1005004 | CIF | Fe Nb Te2 | P m n a | 7.922; 7.239; 6.243 90; 90; 90 | 358 | Li, J; Badding, M E; DiSalvo, F J New layered ternary niobium tellurides: synthesis, structure and properties of NbMTe~2~ (M=Fe, Co) Inorganic Chemistry, 1992, 31, 1050-1054 |
| 1510042 | CIF | Ag3 Te2 Tl | P m n a | 4.6; 4.76; 15.45 90; 90; 90 | 338.293 | Imamov, R.M.; Avilov, A.S.; Pinsker, Z.G. Crystal structure of Ag3 Tl Te2 Kristallografiya, 1972, 17, 281-283 |
| 1520226 | CIF | C5 H11 Cl N6 | P m n a | 6.4782; 9.5193; 14.311 90; 90; 90 | 882.5 | Xu, Jun; Yu, Hongde; Yang, Liulin; Wu, Guanglu; Wang, Zhiqiang; Wang, Dong; Zhang, Xi Self-assembling 1D core/shell microrods by the introduction of additives: a one-pot and shell-tunable method Chem. Sci., 2015, 6, 4907 |
| 1524480 | CIF | Br Cu Se3 | P m n a | 14.363; 4.488; 7.696 90; 90; 90 | 496.093 | Haendler, H.M.; Carkner, P.M.; Boudreau, S.M.; Boudreau, R.A. The crystal structure of copper bromide triselenide, Cu Br Se Journal of Solid State Chemistry, 1979, 29, 35-39 |
| 1527348 | CIF | Cl2 Cu H4 O2 | P m n a | 8.104; 3.757; 7.433 90; 90; 90 | 226.311 | Engberg, A. An X-Ray refinement of the crystal structure of copper(II) chloride dihydrate Acta Chemica Scandinavica (1-27,1973-42,1988), 1970, 24, 3510-3526 |
| 1530590 | CIF | Sb2 Se4 Tl2 | P m n a | 4.18; 4.5; 12 90; 90; 90 | 225.72 | Pinsker, Z.G.; Semiletov, S.A.; Belova, E.N. The electron diffraction determination of the structure of Tl2 Sb2 Se4 Doklady Akademii Nauk SSSR, 1956, 106, 1003-1006 |
| 1530591 | CIF | As0.5 Sb1.5 Se4 Tl2 | P m n a | 4.15; 4.48; 11.85 90; 90; 90 | 220.315 | Pinsker, Z.G.; Khitrova, V.I. The structural analysis of some quaternary alloys Tl-Sb-As-Se Kristallografiya, 1956, 1, 300-305 |
| 1530592 | CIF | As1.5 Sb0.5 Se4 Tl2 | P m n a | 3.99; 4.43; 11.55 90; 90; 90 | 204.154 | Pinsker, Z.G.; Khitrova, V.I. The structural analysis of some quaternary alloys Tl-Sb-As-Se Kristallografiya, 1956, 1, 300-305 |
| 1532971 | CIF | C0.63 Fe4 | P m n a | 4.009; 4.009; 36.672 90; 90; 90 | 589.395 | Nagakura, Sigemaro; Toyoshima, Michiko Crystal structure and morphology of the ordered phase in iron-carbon martensite Transactions of the Japan Institute of Metals, 1979, 20, 100-110 |
| 1534766 | CIF | H8 Li3 N6 O16 Rh | P m n a | 10.098; 7.036; 12.142 90; 90; 90 | 862.683 | Gromilov, S.A.; Baidina, I.A.; Khranenko, S.P.; Alekseev, V.I.; Belyaev, A.V. Synthesis and crystal structure of Li3 (Rh (N O2)6) .4(H2 O) Zhurnal Neorganicheskoi Khimii, 1994, 39, 109-111 |
| 1535970 | CIF | Cl3 Eu3 Li O4 Si | P m n a | 9.4695; 6.9952; 13.68 90; 90; 90 | 906.178 | Jacobsen, H.; Meyer, G. Zwei neue Silicat-Chloride mit zweiwertigem Europium: LiEu3(SiO4)Cl3 und Li7Eu8(SiO4)4Cl7 Zeitschrift fuer Anorganische und Allgemeine Chemie, 1994, 620, 1351-1356 |
| 1536082 | CIF | Cl6 H6 Hg3 N2 | P m n a | 5.9188; 8.0031; 12.433 90; 90; 90 | 588.936 | Nockemann, P.; Meyer, G. Zwei Mercuri-Ammin-Komplexe: (Hg (N H3)2) (Hg Cl3)2 und (Hg (N H3)4) (Cl O4)2 Zeitschrift fuer Anorganische und Allgemeine Chemie, 2003, 629, 123-128 |
| 1536413 | CIF | K3 O6 P3 S2.5 | P m n a | 8.013; 11.088; 13.627 90; 90; 90 | 1210.73 | Palkina, K.K.; Maksimova, S.I.; Chibiskova, N.T.; Pautina, M.S.; Kuvshinova, T.B.; Volf, G.U. Structure of trithiocyclotriphosphates of potassium and cesium. Izvestiya Akademii Nauk SSSR, Neorganicheskie Materialy, 1992, 28, 1486-1490 |
| 1539364 | CIF | F7 H4 N Sn Zr | P m n a | 8.4308; 6.1189; 12.667 90; 90; 90 | 653.455 | Tkachenko, I.A.; Gerasimenko, A.V.; Sergienko, V.I.; Merkulov, E.B.; Kavun, V.Ya.; Uvarov, N.F. Synthesis, structure, internal mobility, and ionic conductivity in N H4 Sn Zr F7 and K Sn Zr F7 Zhurnal Neorganicheskoi Khimii, 2004, 49, 1322-1330 |
| 1539366 | CIF | F7 K Sn Zr | P m n a | 8.375; 5.939; 12.468 90; 90; 90 | 620.147 | Tkachenko, I.A.; Gerasimenko, A.V.; Sergienko, V.I.; Kavun, V.Ya.; Merkulov, E.B.; Uvarov, N.F. Synthesis, structure, internal mobility, and ionic conductivity in N H4 Sn Zr F7 and K Sn Zr F7 Zhurnal Neorganicheskoi Khimii, 2004, 49, 1322-1330 |
| 1539613 | CIF | Ag3 Te2 Tl | P m n a | 4.6; 4.76; 15.45 90; 90; 90 | 338.293 | Avilov, A.S.; Pinsker, Z.G.; Imamov, R.M. Crystal structure of Ag3 Tl Te2 Soviet Physics, Crystallography (= Kristallografiya), 1972, 17, 237-239 |
| 1544601 | CIF | Al1.84 Ca2 Fe0.16 H2 O12 Si3 | P m n a | 18.487; 4.6302; 5.4802 90; 90; 90 | 469.1 | Akasaka, M.; Hashimoto, H.; Makino, K.; Hino, R. 57Fe Mossbauer and X-ray Rietveld studies of ferrian prehnite from Kouragahara, Shimane Peninsula, Japan : Model Pmna Journal of Mineralogical and Petrological Sciences, 2003, 98, 31-40 |
| 1557470 | CIF | C2 H22.35 Al1.06 Ca0.05 Dy0.16 Er0.15 F0.65 Gd0.07 O22.35 Pb0.02 Sm0.01 Y3.41 Yb0.09 | P m n a | 7.8412; 11.0313; 11.387 90; 90; 90 | 984.96 | Biagioni, C.; Bonaccorsi, E.; Camara, F.; Cadoni, M.; Ciriotti, M.E.; Bersani, D.; Kolitsch, U. Lusernaite-(Y), Y4Al(CO3)2(OH,F)11*6H2O, a new mineral species from Luserna Valley, Piedmont, Italy: Description and crystal structure American Mineralogist, 2013, 98, 1322-1329 |
| 1560872 | CIF HKL | Gd O14 P5 | P m n a | 12.909; 8.759; 8.888 90; 90; 90 | 1005 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560874 | CIF HKL | Gd O14 P5 | P m n a | 12.925; 8.736; 8.886 90; 90; 90 | 1003.3 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560876 | CIF HKL | Gd O14 P5 | P m n a | 12.969; 8.727; 8.922 90; 90; 90 | 1009.8 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560879 | CIF HKL | Gd O14 P5 | P m n a | 12.944; 8.716; 8.916 90; 90; 90 | 1005.9 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560880 | CIF HKL | Gd O14 P5 | P m n a | 12.991; 8.741; 8.938 90; 90; 90 | 1014.9 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560883 | CIF HKL | Gd O14 P5 | P m n a | 12.958; 8.723; 8.921 90; 90; 90 | 1008.4 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560884 | CIF HKL | Gd O14 P5 | P m n a | 12.998; 8.743; 8.944 90; 90; 90 | 1016.4 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560887 | CIF HKL | Gd O14 P5 | P m n a | 12.961; 8.718; 8.9242 90; 90; 90 | 1008.4 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560888 | CIF HKL | Gd O14 P5 | P m n a | 12.979; 8.75; 8.924 90; 90; 90 | 1013.5 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560891 | CIF HKL | Gd O14 P5 | P m n a | 12.962; 8.716; 8.927 90; 90; 90 | 1008.5 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560892 | CIF HKL | Gd O14 P5 | P m n a | 13.003; 8.737; 8.945 90; 90; 90 | 1016.2 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560894 | CIF HKL | Gd O14 P5 | P m n a | 12.962; 8.71; 8.927 90; 90; 90 | 1007.8 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560896 | CIF HKL | Gd O14 P5 | P m n a | 12.898; 8.765; 8.908 90; 90; 90 | 1007.1 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560898 | CIF HKL | Gd O14 P5 | P m n a | 12.989; 8.727; 8.944 90; 90; 90 | 1013.8 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560900 | CIF HKL | Gd O14 P5 | P m n a | 13.064; 8.7705; 8.9925 90; 90; 90 | 1030.3 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560903 | CIF HKL | Gd O14 P5 | P m n a | 13.009; 8.739; 8.965 90; 90; 90 | 1019.2 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560904 | CIF HKL | Gd O14 P5 | P m n a | 12.988; 8.713; 8.939 90; 90; 90 | 1011.6 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560907 | CIF HKL | Gd O14 P5 | P m n a | 13.004; 8.726; 8.951 90; 90; 90 | 1015.7 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560908 | CIF HKL | Gd O14 P5 | P m n a | 13.009; 8.72; 8.954 90; 90; 90 | 1015.7 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560910 | CIF HKL | Gd O14 P5 | P m n a | 12.98; 8.712; 8.936 90; 90; 90 | 1010.5 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560913 | CIF HKL | Gd O14 P5 | P m n a | 12.86; 8.782; 8.9 90; 90; 90 | 1005.1 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560915 | CIF | Gd O14 P5 | P m n a | 13.016; 8.722; 8.969 90; 90; 90 | 1018.2 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560917 | CIF HKL | Gd O14 P5 | P m n a | 12.86; 8.788; 8.907 90; 90; 90 | 1006.6 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560918 | CIF HKL | Gd O14 P5 | P m n a | 13; 8.708; 8.959 90; 90; 90 | 1014.2 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560921 | CIF HKL | Gd O14 P5 | P m n a | 13; 8.704; 8.956 90; 90; 90 | 1013.4 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560922 | CIF HKL | Gd O14 P5 | P m n a | 12.98; 8.698; 8.948 90; 90; 90 | 1010.2 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560924 | CIF HKL | Gd O14 P5 | P m n a | 13.01; 8.703; 8.96 90; 90; 90 | 1014.5 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560926 | CIF HKL | Gd O14 P5 | P m n a | 12.85; 8.784; 8.904 90; 90; 90 | 1005 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560928 | CIF HKL | Gd O14 P5 | P m n a | 13; 8.708; 8.956 90; 90; 90 | 1013.9 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560931 | CIF HKL | Gd O14 P5 | P m n a | 12.878; 8.778; 8.925 90; 90; 90 | 1008.9 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560966 | CIF HKL | Nd O14 P5 | P m n a | 13.14; 8.84; 9.01 90; 90; 90 | 1047 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
| 1560968 | CIF HKL | Nd O14 P5 | P m n a | 12.95; 8.806; 8.95 90; 90; 90 | 1021 | Cramer, Alisha J.; Cole, Jacqueline M. Host-guest prospects of neodymium and gadolinium ultraphosphate frameworks for nuclear waste storage: Multi-temperature topological analysis of nanoporous cages in RP5O14 Journal of Solid State Chemistry, 2018, 266, 250-257 |
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