Crystallography Open Database

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COD ID	Links	Formula	Space group	Cell parameters	Cell volume	Bibliography
9009949	CIF	Al1.8 B Ca1.65 Fe0.2 H0.5 Mg0.1 Mn1.2 O16 Si4	P -1	7.162; 9.207; 8.972 91.84; 98.16; 77.34	571.39	Belokoneva E L; Pletnev P A; Spiridonov E M Crystal structure of low-manganese tinzenite (severginite) Note: O2 position not included in the paper, so we deduced it from the reported bondlengths Locality: Tungatarovskoe manganese deposit, Izhevsk, Udmurt Republic, Russia Crystallography Reports, 1997, 42, 934-937
9009950	CIF	Ca1.4 K0.53 Na0.5 O20 Si8 Th	P 4/m c c	7.5792; 7.5792; 14.7042 90; 90; 90	844.672	Kabalov Yu, K.; Sokolova, E. V.; Pautov, L. A.; Schneider, J. Crystal structure of a new mineral turkestanite: a calcium analogue of steacyite Locality: Dzhelisu massif, Alayskiy range, Tien Shan, Kyrgyzstan Note: calculated Biso's disagree with reported values Note: z(O3) adjusted to match reported bond lengths Crystallography Reports, 1998, 43, 584-588
9009951	CIF	C5 Ba0.318 Ca0.834 Ce0.222 La0.114 Na2.184 Nd0.048 O15 Pr0.018 Sr1.899 Y0.03	P 63 m c	10.5313; 10.5313; 6.4829 90; 90; 120	622.679	Belovitskaya Yu, V.; Pekov, I. V.; Kabalov Yu, K. Refinement of the crystal structures of low-rare-earth and "typical" burbankites by the Rietveld method Sample: B-108 Note: x02 adjusted to satisfy symmetry constraints Crystallography Reports, 2000, 45, 26-29
9009952	CIF	C5 Ba0.378 Ca1.131 Ce0.018 La0.051 Na1.86 O15 Sr2.151 Y0.018	P 63 m c	10.5263; 10.5263; 6.5392 90; 90; 120	627.49	Belovitskaya Yu, V.; Pekov, I. V.; Kabalov Yu, K. Refinement of the crystal structures of low-rare-earth and "typical" burbankites by the Rietveld method Sample: B-104 Crystallography Reports, 2000, 45, 26-29
9009953	CIF	Al1.88 B Ca1.42 Fe0.21 H0.5 Mg0.03 Mn1.46 O16 Si4	P -1	7.154; 9.126; 8.949 91.88; 98.8; 77.05	562.694	Belokoneva E L; Goryunova A N; Pletnev P A; Spiridonov E M Crystal structure of high-manganese tinzenite from the Falotta deposit in Switzerland Crystallography Reports, 2001, 46, 30-32
9009954	CIF	Ca0.38 Fe0.36 H18 Mn1.26 Na6.24 Nb0.4 O54 Si18 Ti1.4 Zr0.42	P -3	10.036; 10.036; 12.876 90; 90; 120	1123.14	Yamnova, N. A.; Egorov-Tismenko Y K; Pekov, I. V.; Shchegol'kova, L. V. Crystal structure of tisinalite Na2(Mn,Ca)1-x(Ti,Zr,Nb,Fe3+)[Si6O8(O,OH)10] Crystallography Reports, 2003, 48, 551-556
9009955	CIF	Al2 H4 Na1.862 O13.667 Si4	R -3 :R	11.909; 11.909; 11.909 109.51; 109.51; 109.51	1298.31	Yokomori, Y.; Idaka, S. The crystal structure of analcime Microporous and Mesoporous Materials, 1998, 21, 365-370
9009956	CIF	Al3.974 Ca0.56 H56 K0.864 Na2.476 O47.17 Si14.026	A m m a	13.598; 18.177; 17.79 90; 90; 90	4397.17	Sacerdoti, M.; Sani, A.; Vezzalini, G. Structural refinement of two barrerites from Alaska Note: sample 1 Microporous and Mesoporous Materials, 1999, 30, 103-109
9009957	CIF	Al3.974 Ca0.97 H58 K1.68 Na2.79 O46.3 Si14.026	A m m a	13.586; 18.184; 17.812 90; 90; 90	4400.42	Sacerdoti, M.; Sani, A.; Vezzalini, G. Structural refinement of two barrerites from Alaska Note: sample 3 Microporous and Mesoporous Materials, 1999, 30, 103-109
9009958	CIF	Al Ge3 O8 Rb	P n m a	8.848; 9.55; 10.01 90; 90; 90	845.829	Tripathi, A.; Parise, J. B. Hydrothermal synthesis and structural characterization of the aluminogermanate analogues of JBW, montesommaite, analcime and paracelsian Sample: Rb-AlGe-Para Microporous and Mesoporous Materials, 2002, 52, 65-78
9009959	CIF	Al0.77 Ge1.23 H4 K0.77 O4.5	I -4 2 d	7.373; 7.373; 17.513 90; 90; 90	952.026	Tripathi, A.; Parise, J. B. Hydrothermal synthesis and structural characterization of the aluminogermanate analogues of JBW, montesommaite, analcime and paracelsian Sample: K-AlGe-MON Microporous and Mesoporous Materials, 2002, 52, 65-78
9009960	CIF	Al Cs Ge2 O6	I -4 3 d	13.945; 13.945; 13.945 90; 90; 90	2711.79	Tripathi, A.; Parise, J. B. Hydrothermal synthesis and structural characterization of the aluminogermanate analogues of JBW, montesommaite, analcime and paracelsian Sample: Cs-AlGe-ANA Microporous and Mesoporous Materials, 2002, 52, 65-78
9009961	CIF	Al2 Ca F4 H4 O4	C 1 2/c 1	6.76; 11.12; 7.32 90; 95; 90	548.159	Pudovkina, Z. V.; Chernitsova, N. M.; Pyatenko, Y. A. Refinement of the crystalline structure of prosopite, CaAl2F4(OH)4 Journal of Structural Chemistry, 1973, 14, 345-347
9009962	CIF	Al F4 H3 O2 Sr	P 1 21/c 1	5.02; 10.62; 8.73 90; 102.7; 90	454.031	Pudovkina, Z. V.; Chernitsova, N. M.; Pyatenko Yu, A. Crystal structure refinement of tikhonenkovite Sr2[Al2F8(OH)2]2H2O Journal of Structural Chemistry, 1973*, 14, 445-448
9009963	CIF	Al0.94 N0.94 O6 Si2.06	I 41/a :2	13.218; 13.218; 13.71 90; 90; 90	2395.35	Moroz, N. K.; Seryotkin Yu, V.; Afanasiev, I. S.; Belitzkii, I. A. Arrangement of extraframework cations in NH4-analcime Note: O5 positions taken from ICSD Note: x(Al1) corrected Journal of Structural Chemistry, 1998, 39, 281-283
9009964	CIF	Fe2 K2 Mg3 O30 Si12	P 6/m c c	10.22; 10.22; 14.176 90; 90; 120	1282.29	Nguyen, N.; Choisnet, J.; Raveau, B. Silicates synthetiques a structure milarite Journal of Solid State Chemistry, 1980, 34, 1-9
9009965	CIF	K Mg5 Na O30 Si12	P 6/m c c	10.152; 10.152; 14.28 90; 90; 120	1274.56	Nguyen, N.; Choisnet, J.; Raveau, B. Silicates synthetiques a structure milarite Journal of Solid State Chemistry, 1980, 34, 1-9
9009966	CIF	Cu2 K2 Mg3 O30 Si12	P 6/m c c	10.169; 10.169; 14.182 90; 90; 120	1270.06	Nguyen, N.; Choisnet, J.; Raveau, B. Silicates synthetiques a structure milarite Journal of Solid State Chemistry, 1980, 34, 1-9
9009967	CIF	K2 Mg3 O30 Si12 Zn2	P 6/m c c	10.199; 10.199; 14.145 90; 90; 120	1274.23	Nguyen, N.; Choisnet, J.; Raveau, B. Silicates synthetiques a structure milarite Journal of Solid State Chemistry, 1980, 34, 1-9
9009968	CIF	Mg5 Na2 O30 Si12	P 6/m c c	10.151; 10.151; 14.288 90; 90; 120	1275.03	Nguyen, N.; Choisnet, J.; Raveau, B. Silicates synthetiques a structure milarite Journal of Solid State Chemistry, 1980, 34, 1-9
9009969	CIF	Cu2 Mg3 Na2 O30 Si12	P 6/m c c	10.096; 10.096; 14.25 90; 90; 120	1257.89	Nguyen, N.; Choisnet, J.; Raveau, B. Silicates synthetiques a structure milarite Journal of Solid State Chemistry, 1980, 34, 1-9
9009970	CIF	Mg5 Na O30 Rb Si12	P 6/m c c	10.135; 10.135; 14.376 90; 90; 120	1278.84	Nguyen, N.; Choisnet, J.; Raveau, B. Silicates synthetiques a structure milarite Journal of Solid State Chemistry, 1980, 34, 1-9
9009971	CIF	K3 Li Mg4 O30 Si12	P 6/m c c	10.253; 10.253; 14.04 90; 90; 120	1278.2	Nguyen, N.; Choisnet, J.; Raveau, B. Silicates synthetiques a structure milarite Journal of Solid State Chemistry, 1980, 34, 1-9
9009972	CIF	Li Mg4 Na3 O30 Si12	P 6/m c c	10.155; 10.155; 14.158 90; 90; 120	1264.42	Nguyen, N.; Choisnet, J.; Raveau, B. Silicates synthetiques a structure milarite Journal of Solid State Chemistry, 1980, 34, 1-9
9009973	CIF	As0.2 Cl H0.5 O2 Pb1.5 Sb0.3	I 4/m m m	3.919; 3.919; 12.854 90; 90; 90	197.419	Rouse, R. C.; Dunn, P. J. The structure of thorisokite, a naturally occurring member of the bismuth oxyhalide group Journal of Solid State Chemistry, 1985, 57, 389-395
9009974	CIF	Al1.98 Fe0.99 H44 Mg0.02 Mn0.01 O38 S4	P 1 21/c 1	6.1954; 24.262; 21.262 90; 100.3; 90	3144.45	Lovas, G. A. Structural study of halotrichite from Recsk (Matra Mts., N-Hungary) Acta Geologica Hungarica, 1986, 29, 389-398
9009975	CIF	C24 H12	P 1 21/a 1	16.11; 4.7; 10.1 90; 110.9; 90	714.425	Fawcett J K; Trotter J The crystal and molecular structure of coronene Locality: synthetic Proceedings of the Royal Society of London A, 1966, 289, 366-376
9009976	CIF	Ca2 Fe5 Na O24 Si8	C 1 2/m 1	9.984; 18.223; 5.327 90; 105.05; 90	935.943	Guha, R.; Nag, D. K.; Iyengar, S. V. P. Structure of an amphibole from Simlipal granite, India Indian Minerals, 1987, 41, 32-41
9009977	CIF	As H O4 Pb	P 1 2/c 1	4.93; 6.772; 5.859 90; 96.07; 90	194.512	Wilson, C. C.; Cox, P. J.; Stewart, N. S. Structure and disorder in schultenite, lead hydrogen arsenate Journal of Crystallographic and Spectroscopic Research, 1991, 21, 589-593
9009978	CIF	Ca2.019 F0.165 O8.832 P1.182	P 63/m	9.3207; 9.3207; 6.8947 90; 90; 120	518.732	Perdikatsis, B. X-ray powder diffraction study of francolite by the Rietveld method Sample: T = 26 C Note: Reported structure does not reproduce reported formula or bondlengths Materials Science Forum, 1991, 809-814
9009979	CIF	Ca2.07 F0.163 O8.922 P1.239	P 63/m	9.323; 9.323; 6.8987 90; 90; 120	519.289	Perdikatsis, B. X-ray powder diffraction study of francolite by the Rietveld method Sample: T = 530 C Note: Reported structure does not reproduce reported formula or bondlengths Materials Science Forum, 1991, 809-814
9009980	CIF	Ca2.108 F0.171 O8.817 P1.362	P 63/m	9.3593; 9.3593; 6.8919 90; 90; 120	522.825	Perdikatsis, B. X-ray powder diffraction study of francolite by the Rietveld method Sample: T = 750 C Note: Reported structure does not reproduce reported formula or bondlengths Materials Science Forum, 1991, 809-814
9009981	CIF	Ca2.176 F0.169 O8.973 P1.488	P 63/m	9.3708; 9.3708; 6.888 90; 90; 120	523.814	Perdikatsis, B. X-ray powder diffraction study of francolite by the Rietveld method Sample: T = 1200 C Note: Reported structure does not reproduce reported formula or bondlengths Materials Science Forum, 1991, 809-814
9009982	CIF	Ni Ti0.88	P -3	4.2579; 4.2579; 5.2149 90; 90; 120	81.878	Sitepu, H.; Wright, J. P.; Hansen, T.; Chateigner, D.; Brokmeier, H. G.; Ritter, C.; Ohba, T. Combined synchrotron and neutron structural refinement of R-phase in Ti50.75Ni47.75Fe1.50 shape memory alloy Materials Science Forum, 2005, 495, 255-260
9009983	CIF	Ni Ti0.875	P 3	4.2579; 4.2579; 5.2149 90; 90; 120	81.878	Sitepu, H.; Wright, J. P.; Hansen, T.; Chateigner, D.; Brokmeier, H. G.; Ritter, C.; Ohba, T. Combined synchrotron and neutron structural refinement of R-phase in Ti50.75Ni47.75Fe1.50 shape memory alloy Materials Science Forum, 2005, 495, 255-260
9009984	CIF	Ni Ti0.876	P 3 1 m	4.2579; 4.2579; 5.2149 90; 90; 120	81.878	Sitepu, H.; Wright, J. P.; Hansen, T.; Chateigner, D.; Brokmeier, H. G.; Ritter, C.; Ohba, T. Combined synchrotron and neutron structural refinement of R-phase in Ti50.75Ni47.75Fe1.50 shape memory alloy Materials Science Forum, 2005, 495, 255-260
9009985	CIF	Fe2 H O9 Sb Si2	C 1 m 1	5.225; 8.997; 7.78 90; 101.71; 90	358.121	Ballirano, P.; Maras, A.; Marchetti, F.; Merlino, S.; Perchiazzi, N. Rietveld refinement of chapmanite SbFe2Si2O8OH, a TO dioctahderal kaolinite-like mineral Powder Diffraction, 1998, 13, 44-49
9009986	CIF	As0.667 Cu H2.752 O3	P m m a	8.3212; 2.9377; 4.6644 90; 90; 90	114.022	Sarp H; Cerny R Theoparacelsite, Cu3(OH)2As2O7, a new mineral: its description and crystal structure Archives des Sciences, Geneve, 2001, 54, 7-14
9009987	CIF	Al10 H2 O16	P 63 m c	5.575; 5.575; 8.761 90; 90; 120	235.816	Yamaguchi, G.; Okumiya, M.; Ono, S. Refinement of the structure of tohdite 5Al2O3H2O Bulletin of the Chemical Society of Japan, 1969*, 42, 2247-2249
9009988	CIF	Al3 Ba F4 H4 Li Mg2 O16 Si4	C c c a :2	13.587; 20.164; 5.144 90; 90; 90	1409.29	Peng, Z.; Ma, Z.; Han, S. The refinement of crystal structure of balipholite Scientia Sinica B, 1987, 30, 779-784
9009989	CIF	Al2.165 Ca0.592 H20 K0.023 Mg0.023 Na0.09 O20.64 Si5.835	C 1 2/c 1	17.983; 17.966; 14.625 90; 114.31; 90	4306.12	Alberti, A.; Cruciani, G.; Galli, E.; Merlino, S.; Millini, R.; Quartieri, S.; Vezzalini, G.; Zanardi, S. Crystal structure of tetragonal and monoclinic polytypes of tschernichite, the natural counterpart of synthetic zeolite beta Sample: large crystal, monoclinic Journal of Physical Chemistry B, 2002, 106, 10277-10284
9009990	CIF	Al2.74 Ca0.89 H30 K0.11 Mg0.08 Na0.08 O40.34 Si13.26	P 41 2 2	12.634; 12.634; 26.608 90; 90; 90	4247.12	Alberti, A.; Cruciani, G.; Galli, E.; Merlino, S.; Millini, R.; Quartieri, S.; Vezzalini, G.; Zanardi, S. Crystal structure of tetragonal and monoclinic polytypes of tschernichite, the natural counterpart of synthetic zeolite beta Sample: small crystal, tetragonal Note: Mg position adjusted to match reported bond lengths Journal of Physical Chemistry B, 2002, 106, 10277-10284
9009991	CIF	Ag3 As S3	R 3 c :H	10.767; 10.767; 8.713 90; 90; 120	874.758	Allen, S. Phase transitions in proustite I. Structural studies Sample: T = 35 K Phase Transition, 1985, 6, 1-24
9009992	CIF	Ag3 As S3	R 3 c :H	10.768; 10.768; 8.72 90; 90; 120	875.623	Allen, S. Phase transitions in proustite I. Structural studies Sample: T = 63 K Phase Transition, 1985, 6, 1-24
9009993	CIF	Ag3 As S3	R 3 c :H	10.825; 10.825; 8.704 90; 90; 120	883.294	Allen, S. Phase transitions in proustite I. Structural studies Sample: T = 300 K Note: calculated Ag-S bondlengths do not match those reported Phase Transition, 1985, 6, 1-24
9009994	CIF	F3 La	P 63/m m c	4.148; 4.148; 7.354 90; 90; 120	109.58	Schlyter, K. On the crystal structure of fluorides of the tysonite LaF3 type Arkiv for Kemi, 1952, 5, 73-82
9009995	CIF	C4 Mg2 Na6 O16 S	F d -3 :1	13.9; 13.9; 13.9 90; 90; 90	2685.62	Watanabe, T. Les structures cristallines de la northupite 2MgCO32Na2CO32NaCl et de la tychite 2MgCO32Na2CO3Na2SO4 Scientific Papers of the Institute of Physical and Chemical Research, 1933, 21, 40-62
9009996	CIF	As0.8 H2 Na2 O2 S13 Sb7.2	C 1 m 1	9.911; 23.05; 7.097 90; 127.85; 90	1280.21	Nakai, I.; Appleman, D. E. The crystal structure of gerstleyite Na2(Sb,As)8S132H2O: the first sulfosalt mineral of sodium Chemistry Letters, 1981, 1981*, 1327-1330
9009997	CIF	Cl0.827 Cu7.5 H27.75 N0.021 O28.487 S0.056	P 63/m m c	15.7866; 15.7866; 9.1015 90; 90; 120	1964.36	Hibbs, D. E.; Leverett, P.; Williams, P. A. Connellite from Bisbee, Arizona: A single-crystal X-ray study Axis, 2006, 2, 1-7
9009998	CIF	Al0.2 Be2 Ca Fe1.6 H6.71 Mg0.2 Mn0.35 O17 P3	C 1 2/c 1	15.903; 11.885; 6.677 90; 94.68; 90	1257.79	Rastsvetaeva R K; Gurbanova O A; Chukanov N V Crystal structure of greifensteinite Ca2Be4(Fe2+,Mn)5(PO4)6(OH)46H2O Locality: Greifenstein, Saxony, Germany Doklady Chemistry, 2002, 383*, 78-81
9009999	CIF	H2 K O4 P	I -4 2 d	7.4264; 7.4264; 6.931 90; 90; 90	382.254	Nelmes, R. J.; Meyer, G. M.; Tibballs, J. E. The crystal structure of tetragonal KH2PO4 and KD2PO4 as a function of temperature Sample: T = 127 K Journal of Physics C: Solid State Physics, 1982, 15, 59-75
9010000	CIF	H2 K O4 P	I -4 2 d	7.4521; 7.4521; 6.974 90; 90; 90	387.293	Nelmes, R. J.; Meyer, G. M.; Tibballs, J. E. The crystal structure of tetragonal KH2PO4 and KD2PO4 as a function of temperature Sample: T = 295 K Journal of Physics C: Solid State Physics, 1982, 15, 59-75
9010001	CIF	D2 K O4 P	I -4 2 d	7.459; 7.459; 6.957 90; 90; 90	387.064	Nelmes, R. J.; Meyer, G. M.; Tibballs, J. E. The crystal structure of tetragonal KH2PO4 and KD2PO4 as a function of temperature Sample: T = 227 K Journal of Physics C: Solid State Physics, 1982, 15, 59-75
9010002	CIF	D2 K O4 P	I -4 2 d	7.4794; 7.4794; 6.995 90; 90; 90	391.31	Nelmes, R. J.; Meyer, G. M.; Tibballs, J. E. The crystal structure of tetragonal KH2PO4 and KD2PO4 as a function of temperature Sample: T = 263 K Journal of Physics C: Solid State Physics, 1982, 15, 59-75
9010003	CIF	As Ni	C m c 21	10.8568; 6.2682; 5.034 90; 90; 90	342.577	Thompson, J. G.; Rae, A. D.; Withers, R. L.; Welberry, T. R.; Willis, A. C. The crystal structure of nickel arsenide Note: room temperature, solution 1 Journal of Physics C: Solid State Physics, 1988, 21, 4007-4015
9010004	CIF	As Ni	C m c 21	10.8568; 6.2682; 5.034 90; 90; 90	342.577	Thompson, J. G.; Rae, A. D.; Withers, R. L.; Welberry, T. R.; Willis, A. C. The crystal structure of nickel arsenide Note: room temperature, solution 2 Journal of Physics C: Solid State Physics, 1988, 21, 4007-4015
9010005	CIF	Cl O2 Pb Sb	C m c m	5.603; 12.245; 5.448 90; 90; 90	373.78	Giuseppetti, G.; Tadini, C. Riesame della struttura cristallina della nadorite: PbSbO2Cl Periodico di Mineralogia, 1973, 42, 335-345
9010006	CIF	Cl H4 N	P m -3 m	3.86; 3.86; 3.86 90; 90; 90	57.512	Vainshtein B K Refinement of the structure of the group NH4 in the structure of ammonium chloride Trudy Instituta Kristallografii Akademiya Nauk SSSR, 1956, 12, 18-24
9010007	CIF	Fe H4 O6 P	P b c a	8.722; 9.878; 10.1187 90; 90; 90	871.786	Taxer, K.; Bartl, H. On the dimorphy between the variscite and clinovariscite group: refined finestructural relationship of strengite and clinostrengite, Fe(PO4)2H2O Note: x(O3) corrected to match reported bond lengths Crystal Research and Technology, 2004*, 39, 1080-1088
9010008	CIF	Fe H4 O6 P	P 1 21/n 1	5.335; 9.808; 8.72 90; 90.54; 90	456.26	Taxer, K.; Bartl, H. On the dimorphy between the variscite and clinovariscite group: refined finestructural relationship of strengite and clinostrengite, Fe(PO4)2H2O Crystal Research and Technology, 2004*, 39, 1080-1088
9010009	CIF	Cr H O2	P b n m	4.492; 9.86; 2.974 90; 90; 90	131.722	Milton, C.; Appleman, D. E.; Appleman, M. H.; Chao, E. C. T.; Cuttita, F.; Dinnin, J. I.; Dwornik, E. J.; Ingram, B. L.; Rose, H. J. Merumite, a complex assemblage of chromium minerals from Guyana U.S. Geological Survey Professional Paper, 1976, 887, 1-29
9010010	CIF	Ni Ti	P 1 1 21/m	2.8837; 4.6674; 4.1062 90; 90; 97.938	54.737	Sitepu, H.; Schmahl, W. W.; Stalick, J. K. Correction of intensities for preferred orientation in neutron-diffraction data of NiTi shape-memory alloy using the generalized spherical-harmonic description Applied Physics A, 2002, 74, S1719-S1721
9010011	CIF	Fe S2	P a -3	5.38; 5.38; 5.38 90; 90; 90	155.721	Ramsdell, L. S. The crystal structures of some metallic sulfides American Mineralogist, 1925, 10, 281-304
9010012	CIF	Be2 H Na2 O16 Si6	P n m a	12.74; 13.63; 7.33 90; 90; 90	1272.83	Robinson, P. D.; Fang, J. H. The crystal structure of epididymite Locality: Narsarsuk, Greenland American Mineralogist, 1970, 55, 1541-1549
9010013	CIF	Ga H3 O3	P m n 21	7.4865; 7.4379; 7.4963 90; 90; 90	417.423	Scott, J. D. Crystal structure of a new mineral, sohngeite American Mineralogist, 1971, 56, 355-355
9010015	CIF	Pb9 S21 Sb8	C 1 2/c 1	13.603; 11.936; 24.453 90; 106.047; 90	3815.62	Kohatsu, J. J.; Wuensch, B. J. Semseyite (Pb9Sb8S11) and the crystal chemistry of the plagionite group, Pb3+2nSb8S15+2n Note: structure from ICSD American Mineralogist, 1974, 59, 1127-1127
9010016	CIF	C H2.69 Ca0.11 Ce0.41 La0.28 O4 Sr0.2	P m c n	5.03; 8.52; 7.29 90; 90; 90	312.417	dal Negro, A.; Rossi, G.; Tazzoli, V. The crystal structure of ancylite, (RE)x(Ca,Sr)2-x(CO3)2(OH)x(2-x)H2O American Mineralogist, 1975, 60, 280-284
9010017	CIF	Fe Ni	P 4/m m m	2.533; 2.533; 3.582 90; 90; 90	22.982	Clarke, R. S.; Scott, E. R. D. Tetrataenite - ordered FeNi, a new mineral in meteorites American Mineralogist, 1980, 65, 624-630
9010018	CIF	Ca0.92 H4 Mg0.05 Mn4.03 O17 Si5	I -1	10.273; 11.91; 12.001 105.77; 110.64; 89.13	1317.06	Ohashi, Y.; Finger, L. W. The crystal structure of santaclaraite, CaMn4[Si5O14(OH)](OH)H2O: The role of hydrogen atoms in the pyroxenoid structure Note: gamma angle revised according to Am Min 66 (1981) 1281 American Mineralogist, 1981*, 66, 154-168
9010019	CIF	Fe0.725 Ni0.025 Si0.25	I m -3 m	2.841; 2.841; 2.841 90; 90; 90	22.931	Keil, K.; Berkley, J. L.; Fuchs, J. H. Suessite, Fe3Si: a new mineral in the North Haig ureilite American Mineralogist, 1982, 67, 126-131
9010020	CIF	Al2.502 H26 K0.5 Mg0.25 Na1.5 O42.5 Si15.498	P 1 21/n 1	18.886; 14.182; 7.47 90; 90; 90	2000.77	Gramlich-Meier R; Gramlich, V.; Meier, W. M. The crystal structure of the monoclinic variety of ferrierite American Mineralogist, 1985, 70, 619-623
9010021	CIF	Al2 Ba O8 Si2	P 1 21/a 1	9.072; 9.588; 8.577 90; 90.21; 90	746.042	Chiari, G.; Gazzoni, G.; Craig, J. R.; Gibbs, G. V.; Louisnathan, S. J. Two independent refinements of the structure of paracelsian, BaAl2Si2O8 Sample: CG refinement American Mineralogist, 1985, 70, 969-974
9010022	CIF	Al2 Ba O8 Si2	P 1 21/a 1	9.065; 9.568; 8.578 90; 90.01; 90	744.004	Chiari, G.; Gazzoni, G.; Craig, J. R.; Gibbs, G. V.; Louisnathan, S. J. Two independent refinements of the structure of paracelsian, BaAl2Si2O8 Sample: CLG refinement American Mineralogist, 1985, 70, 969-974
9010026	CIF	Ca1.02 H10 O15 V4	P -1	6.36; 18.09; 6.276 110.18; 101.62; 82.86	662.672	Konnert, J. A.; Evans, H. T. Crystal structure and crystal chemistry of melanovanadite, a natural vanadium bronze Locality: Minas Ragra, Cerro de Pasco, Peru American Mineralogist, 1987, 72, 637-644
9010028	CIF	Fe0.5 Mg0.75 Mn1.25 O4 Sb0.5	F d -3 m :1	8.64; 8.64; 8.64 90; 90; 90	644.973	Dunn, P. J.; Peacor, D. R.; Criddle, A. J.; Stanley, C. J. Filipstadite, a new Mn-Fe3±Sb derivative of spinel, from Lanban, Sweden Note: cubic subcell, O arbitrarily placed in ideal eutactic position American Mineralogist, 1988, 73, 413-419
9010029	CIF	Mg4 O12 Si4	I 41/a	11.501; 11.501; 11.48 90; 90; 90	1518.49	Angel, R. J.; Finger, L. W.; Hazen, R. M.; Kanzaki, M.; Weidner, D. J.; Liebermann, R. C.; Veblen, D. R. Structure and twinning of single-crystal MgSiO3 garnet synthesized at 17 GPa and 1800 C Note: majoritic or majorite-like American Mineralogist, 1989, 74, 509-512
9010030	CIF	Bi1.3 Pd0.27 Pt0.73 Sb0.07 Te0.63	P a -3	6.687; 6.687; 6.687 90; 90; 90	299.016	Bayliss, P. Crystal chemistry and crystallography of some minerals within the pyrite group American Mineralogist, 1989, 74, 1168-1176
9010031	CIF	Al0.416 Ca0.25 F1.4 Fe1.22 K0.148 Li0.06 Mg3.24 Mn0.43 Na2.104 O22.6 Si7.584 Ti0.05	C 1 2/m 1	9.795; 17.993; 5.28 90; 104.53; 90	900.792	Hawthorne, F. C.; Ungaretti, L.; Oberti, R.; Bottazzi, P.; Czamanske, G. K. Li: an important component in igneous alkali amphiboles Sample: A(1), magnesio-ferri-fluor-oxy-katophorite American Mineralogist, 1993, 78, 733-745
9010032	CIF	Al0.4 Ca0.95 F1.36 Fe1.24 H0.18 K0.169 Li0.06 Mg3.16 Mn0.16 Na1.469 O22.64 Si7.6 Ti0.05 Zn0.33	C 1 2/m 1	9.808; 17.993; 5.284 90; 104.54; 90	902.63	Hawthorne, F. C.; Ungaretti, L.; Oberti, R.; Bottazzi, P.; Czamanske, G. K. Li: an important component in igneous alkali amphiboles Sample: A(2), magnesio-ferri-fluor-katophorite American Mineralogist, 1993, 78, 733-745
9010033	CIF	Al0.328 F1.7 Fe2.98 H0.3 K0.238 Li0.64 Mg0.54 Mn0.7 Na2.662 O22.3 Si7.672 Ti0.08 Zn0.06	C 1 2/m 1	9.792; 17.934; 5.313 90; 103.87; 90	905.81	Hawthorne, F. C.; Ungaretti, L.; Oberti, R.; Bottazzi, P.; Czamanske, G. K. Li: an important component in igneous alkali amphiboles Sample: A(3), ferro-fluor-leakeite American Mineralogist, 1993, 78, 733-745
9010034	CIF	Al0.2 F1.6 Fe2.92 H0.4 K0.239 Li0.64 Mg0.64 Mn0.66 Na2.652 O22.4 Si7.8 Ti0.07 Zn0.07	C 1 2/m 1	9.796; 17.934; 5.312 90; 103.89; 90	905.931	Hawthorne, F. C.; Ungaretti, L.; Oberti, R.; Bottazzi, P.; Czamanske, G. K. Li: an important component in igneous alkali amphiboles Sample: A(4), ferro-fluor-leakeite American Mineralogist, 1993, 78, 733-745
9010035	CIF	Al0.272 F1.6 Fe3.04 H0.4 K0.236 Li0.63 Mg0.46 Mn0.73 Na2.647 O22.4 Si7.728 Ti0.07 Zn0.07	C 1 2/m 1	9.792; 17.935; 5.314 90; 103.85; 90	906.109	Hawthorne, F. C.; Ungaretti, L.; Oberti, R.; Bottazzi, P.; Czamanske, G. K. Li: an important component in igneous alkali amphiboles Sample: A(5), ferro-fluor-leakeite American Mineralogist, 1993, 78, 733-745
9010036	CIF	Al0.208 Ca0.72 F1.38 Fe2.14 H0.22 K0.211 Li0.16 Mg2.1 Mn0.54 Na1.91 O22.62 Si7.792 Ti0.04 Zn0.02	C 1 2/m 1	9.835; 17.944; 5.297 90; 103.97; 90	907.161	Hawthorne, F. C.; Ungaretti, L.; Oberti, R.; Bottazzi, P.; Czamanske, G. K. Li: an important component in igneous alkali amphiboles Sample: A(6), magnesio-ferri-fluor-katophorite American Mineralogist, 1993, 78, 733-745
9010037	CIF	Al0.296 Ca0.72 F1.6 Fe1.72 H0.4 K0.166 Li0.08 Mg2.57 Mn0.63 Na1.864 O22.4 Si7.704 Ti0.04 Zn0.04	C 1 2/m 1	9.861; 18.05; 5.288 90; 104.22; 90	912.377	Hawthorne, F. C.; Ungaretti, L.; Oberti, R.; Bottazzi, P.; Czamanske, G. K. Li: an important component in igneous alkali amphiboles Sample: A(7), magnesio-ferri-fluor-katophorite American Mineralogist, 1993, 78, 733-745
9010038	CIF	Al0.12 F1.2 Fe3.57 H0.8 K0.245 Li0.36 Mg0.2 Mn0.67 Na2.47 O22.8 Si7.88 Ti0.1 Zn0.1	C 1 2/m 1	9.816; 18.004; 5.325 90; 103.72; 90	914.22	Hawthorne, F. C.; Ungaretti, L.; Oberti, R.; Bottazzi, P.; Czamanske, G. K. Li: an important component in igneous alkali amphiboles Sample: A(8) American Mineralogist, 1993, 78, 733-745
9010039	CIF	Al0.12 F1.4 Fe3.52 H0.6 K0.257 Li0.33 Mg0.18 Mn0.79 Na2.404 O22.6 Si7.88 Ti0.08 Zn0.1	C 1 2/m 1	9.815; 18.016; 5.329 90; 103.71; 90	915.463	Hawthorne, F. C.; Ungaretti, L.; Oberti, R.; Bottazzi, P.; Czamanske, G. K. Li: an important component in igneous alkali amphiboles Sample: A(9) American Mineralogist, 1993, 78, 733-745
9010040	CIF	Ca0.008 F1.7 Fe3.06 H0.3 K0.179 Li0.25 Mg0.77 Mn0.81 Na2.799 O22.3 Si8 Ti0.12	C 1 2/m 1	9.858; 18.046; 5.316 90; 103.69; 90	918.836	Hawthorne, F. C.; Ungaretti, L.; Oberti, R.; Bottazzi, P.; Czamanske, G. K. Li: an important component in igneous alkali amphiboles Sample: A(10) American Mineralogist, 1993, 78, 733-745
9010041	CIF	Al0.04 Ca0.06 F1.7 Fe3.21 H0.3 K0.159 Li0.25 Mg0.62 Mn0.91 Na2.663 O22.3 Si7.96 Ti0.12	C 1 2/m 1	9.859; 18.049; 5.316 90; 103.69; 90	919.082	Hawthorne, F. C.; Ungaretti, L.; Oberti, R.; Bottazzi, P.; Czamanske, G. K. Li: an important component in igneous alkali amphiboles Sample: A(11) American Mineralogist, 1993, 78, 733-745
9010042	CIF	Al0.176 Ca0.08 F0.8 Fe3.87 H1.2 K0.223 Li0.17 Mg0.31 Mn0.58 Na2.415 O23.2 Si7.824 Ti0.08 Zn0.04	C 1 2/m 1	9.84; 18.036; 5.365 90; 104.05; 90	923.665	Hawthorne, F. C.; Ungaretti, L.; Oberti, R.; Bottazzi, P.; Czamanske, G. K. Li: an important component in igneous alkali amphiboles Sample: A(12) American Mineralogist, 1993, 78, 733-745
9010043	CIF	Al0.112 Ca0.05 F0.3 Fe4.48 H1.7 K0.521 Li0.22 Mg0.04 Mn0.14 Na2.231 O23.7 Si7.928 Ti0.06 Zn0.02	C 1 2/m 1	9.986; 18.042; 5.314 90; 103.92; 90	929.293	Hawthorne, F. C.; Ungaretti, L.; Oberti, R.; Bottazzi, P.; Czamanske, G. K. Li: an important component in igneous alkali amphiboles Sample: A(13) American Mineralogist, 1993, 78, 733-745
9010044	CIF	Al2.3 Ca1.94 F0.26 Fe2.76 H1.74 K0.37 Mg1.8 Na0.36 O23.74 Si6.08 Ti0.06	C 1 2/m 1	9.895; 18.119; 5.332 90; 105.17; 90	922.649	Oberti, R.; Ungaretti, L.; Cannillo, E.; Hawthorne, F. C. The mechanism of Cl incorporation in amphibole Sample: Cl(0) American Mineralogist, 1993, 78, 746-752
9010045	CIF	Al1.88 Ca1.74 Cl0.56 F0.26 Fe2.94 H1.16 K0.36 Mg1.76 Na0.67 O25.16 Si6.44 Ti0.04	C 1 2/m 1	9.884; 18.143; 5.332 90; 104.86; 90	924.185	Oberti, R.; Ungaretti, L.; Cannillo, E.; Hawthorne, F. C. The mechanism of Cl incorporation in amphibole Sample: Cl(1) American Mineralogist, 1993, 78, 746-752
9010046	CIF	Al2.18 Ca1.86 Cl0.98 F0.14 Fe3.58 H0.88 K0.54 Mg1.06 Na0.5 O24.88 Si6.16 Ti0.02	C 1 2/m 1	9.922; 18.219; 5.36 90; 104.81; 90	936.733	Oberti, R.; Ungaretti, L.; Cannillo, E.; Hawthorne, F. C. The mechanism of Cl incorporation in amphibole Sample: Cl(2) American Mineralogist, 1993, 78, 746-752
9010047	CIF	Fe2 O9 Si3	P -1	22.2; 22.2; 17.835 125.03; 95.98; 120	5199.1	Guggenheim, S.; Eggleton, R. A. Stilpnomelane and parsettensite: A distance least squares (DLS) study American Mineralogist, 1994, 79, 438-442
9010048	CIF	Al3.954 Ca1.22 H72.096 K Mg0.26 O49.2 Si14.046	P 63/m m c	13.264; 13.264; 15.067 90; 90; 120	2295.65	Gualtieri, A.; Artioli, G.; Passaglia, E.; Bigi, S.; Viani, A.; Hanson, J. C. Crystal structure-crystal chemistry relationships in the zeolites erionite and offretite Sample from Shourdo American Mineralogist, 1998, 83, 590-606
9010049	CIF	Ca1.71 Fe0.68 H Mn0.32 Na0.25 O15 Sc0.91 Si5 Sn0.04	P -1	7.536; 11.734; 6.748 91.7; 93.86; 104.53	575.643	Orlandi, P.; Pasero, M.; Vezzalini, G. Scandiobabingtonite, a new mineral from the Baveno pegmatite, Piedmont, Italy American Mineralogist, 1998, 83, 1330-1334
9010053	CIF	Fe Ni0.13 P0.97 Si0.03 Ti0.87	P n m a	6.007; 3.602; 6.897 90; 90; 90	149.232	Ivanov, A. V.; Zolensky, M. E.; Saito, A.; Ohsumi, K.; Yang, S. V.; Kononkova, N. N.; Mikouchi, T. Florenskyite, FeTiP, a new phosphide from the Kaidun meteorite American Mineralogist, 2000, 85, 1082-1086
9010054	CIF	As S	P 1 21/n 1	9.327; 13.563; 6.59 90; 106.46; 90	799.484	Kyono, A.; Kimata, M.; Hatta, T. Light-induced degradation dynamics in realgar: in situ structural investigation using single crystal X-ray diffraction and X-ray photoelectron spectroscopy Sample: Getchell mine, Nevada; t = 0 hours Note: space group corrected American Mineralogist, 2005, 90, 1563-1570
9010055	CIF	As S	P 1 21/n 1	9.343; 13.561; 6.58 90; 106.1; 90	800.991	Kyono, A.; Kimata, M.; Hatta, T. Light-induced degradation dynamics in realgar: in situ structural investigation using single crystal X-ray diffraction and X-ray photoelectron spectroscopy Sample: Getchell mine, Nevada; t = 6 hours Note: space group corrected American Mineralogist, 2005, 90, 1563-1570
9010056	CIF	As S	P 1 21/n 1	9.36; 13.573; 6.59 90; 105.71; 90	805.941	Kyono, A.; Kimata, M.; Hatta, T. Light-induced degradation dynamics in realgar: in situ structural investigation using single crystal X-ray diffraction and X-ray photoelectron spectroscopy Sample: Getchell mine, Nevada; t = 12 hours Note: space group corrected American Mineralogist, 2005, 90, 1563-1570

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