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COD ID	Links	Formula	Space group	Cell parameters	Cell volume	Bibliography
9016743	CIF	Al1.02 K0.88 Na0.12 O8 Si2.98	C 1 2/m 1	8.545; 12.967; 7.201 90; 116; 90	717.141	Phillips, M. W.; Ribbe, P. H. The structures of monoclinic potassium-rich feldspars Note: variety adularia American Mineralogist, 1973, 58, 263-270
9016744	CIF	Al K0.86 Na0.1 O8 Si3	C 1 2/m 1	8.5632; 12.963; 7.2099 90; 116.073; 90	718.887	Prince, E.; Donnay, G.; Martin, R. F. Neutron diffraction refinement of an ordered orthoclase structure American Mineralogist, 1973, 58, 500-507
9016746	CIF	Cu1.77 H7 O9 P Zn1.23	P 1 21/a 1	9.8275; 10.2244; 7.5322 90; 103.18; 90	736.901	Ghose, S.; Leo, S. R.; Wan, C. Structural chemistry of copper and zinc minerals. Part I. Veszelyite, (Cu,Zn)2ZnPO4(OH)3*2H2O: A novel type of sheet structure and crystal chemistry of copper-zinc substitution American Mineralogist, 1974, 59, 573-581
9016747	CIF	Al Ca0.012 K0.005 Na0.983 O8 Si3	C -1	8.1535; 12.8694; 7.107 93.521; 116.458; 90.257	665.95	Prewitt, C. T.; Sueno, S.; Papike, J. J. The crystal structures of high albite and monalbite at high temperatures T = 24 deg C feldspar American Mineralogist, 1976, 61, 1213-1225
9016748	CIF	Al Ca0.012 K0.005 Na0.983 O8 Si3	C -1	8.1829; 12.8947; 7.119 93.041; 116.352; 90.172	671.866	Prewitt, C. T.; Sueno, S.; Papike, J. J. The crystal structures of high albite and monalbite at high temperatures T = 350 deg C feldspar American Mineralogist, 1976, 61, 1213-1225
9016749	CIF	Al Ca0.012 K0.005 Na0.983 O8 Si3	C -1	8.2096; 12.9182; 7.1284 92.482; 116.282; 90.128	677.011	Prewitt, C. T.; Sueno, S.; Papike, J. J. The crystal structures of high albite and monalbite at high temperatures T = 600 deg C feldspar American Mineralogist, 1976, 61, 1213-1225
9016750	CIF	Al Ca0.012 K0.005 Na0.983 O8 Si3	C -1	8.2296; 12.9336; 7.1357 91.956; 116.232; 90.078	680.78	Prewitt, C. T.; Sueno, S.; Papike, J. J. The crystal structures of high albite and monalbite at high temperatures T = 750 deg C feldspar American Mineralogist, 1976, 61, 1213-1225
9016751	CIF	Al Ca0.012 K0.005 Na0.983 O8 Si3	C -1	8.2508; 12.9489; 7.1431 91.161; 116.169; 90.03	684.755	Prewitt, C. T.; Sueno, S.; Papike, J. J. The crystal structures of high albite and monalbite at high temperatures T = 950 deg C feldspar American Mineralogist, 1976, 61, 1213-1225
9016752	CIF	Al Ca0.012 K0.005 Na0.983 O8 Si3	C -1	8.2763; 12.9593; 7.1463 90.097; 116.092; 89.988	688.363	Prewitt, C. T.; Sueno, S.; Papike, J. J. The crystal structures of high albite and monalbite at high temperatures T = 1090 deg C feldspar American Mineralogist, 1976, 61, 1213-1225
9016753	CIF	Al Ca0.012 K0.005 Na0.983 O8 Si3	C -1	8.2783; 12.9592; 7.1452 90.056; 116.087; 89.997	688.448	Prewitt, C. T.; Sueno, S.; Papike, J. J. The crystal structures of high albite and monalbite at high temperatures T = 1105 deg C feldspar American Mineralogist, 1976, 61, 1213-1225
9016754	CIF	Al K0.002 Na0.998 O8 Si3	C -1	8.161; 12.875; 7.11 93.53; 116.46; 90.24	667.122	Winter, J. K.; Okamura, F. P.; Ghose, S. A high-temperature structural study of high albite, monalbite, and the analbite - monalbite phase transition T = 25 C American Mineralogist, 1979, 64, 409-423
9016755	CIF	Al K0.002 Na0.998 O8 Si3	C -1	8.208; 12.934; 7.134 92.65; 116.25; 90.12	678.316	Winter, J. K.; Okamura, F. P.; Ghose, S. A high-temperature structural study of high albite, monalbite, and the analbite - monalbite phase transition T = 500 C American Mineralogist, 1979, 64, 409-423
9016756	CIF	Al K0.002 Na0.998 O8 Si3	C -1	8.234; 12.955; 7.143 92; 116.17; 90.06	683.315	Winter, J. K.; Okamura, F. P.; Ghose, S. A high-temperature structural study of high albite, monalbite, and the analbite - monalbite phase transition T = 750 C American Mineralogist, 1979, 64, 409-423
9016757	CIF	Al K0.002 Na0.998 O8 Si3	C -1	8.259; 12.975; 7.151 90.8; 116.1; 90	688.08	Winter, J. K.; Okamura, F. P.; Ghose, S. A high-temperature structural study of high albite, monalbite, and the analbite - monalbite phase transition T = 980 C American Mineralogist, 1979, 64, 409-423
9016758	CIF	Al K0.002 Na0.998 O8 Si3	C -1	8.27; 12.978; 7.154 90.22; 116.05; 89.96	689.817	Winter, J. K.; Okamura, F. P.; Ghose, S. A high-temperature structural study of high albite, monalbite, and the analbite - monalbite phase transition T = 1040 C American Mineralogist, 1979, 64, 409-423
9016759	CIF	Al K0.002 Na0.998 O8 Si3	C 1 2/m 1	8.274; 12.991; 7.144 90; 116.13; 90	689.41	Winter, J. K.; Okamura, F. P.; Ghose, S. A high-temperature structural study of high albite, monalbite, and the analbite - monalbite phase transition T = 980 C, sample = monalbite American Mineralogist, 1979, 64, 409-423
9016760	CIF	Al K0.002 Na0.998 O8 Si3	C 1 2/m 1	8.297; 12.994; 7.144 90; 116.01; 90	692.195	Winter, J. K.; Okamura, F. P.; Ghose, S. A high-temperature structural study of high albite, monalbite, and the analbite - monalbite phase transition T = 1060 deg C, sample = monalbite American Mineralogist, 1979, 64, 409-423
9016761	CIF	Al3.856 Fe0.772 H0.72 Mg1.176 O18.72 Si4.878	C c c m	17.14; 9.769; 9.321 90; 90; 90	1560.71	Wallace, J. H.; Wenk, H. R. Structure variation in low cordierites Note: sample sci 552 American Mineralogist, 1980, 65, 96-111
9016762	CIF	Fe H4 Na O2 S2	C 1 2/c 1	10.693; 9.115; 5.507 90; 92.17; 90	536.364	Konnert, J. A.; Evans, H. T. The crystal structure of erdite, NaFeS2*2H2O American Mineralogist, 1980, 65, 516-521
9016763	CIF	H5.64 K2.4 Na0.58 O11.82 S3 Sb7	P 63	14.2513; 14.2513; 5.59 90; 90; 120	983.222	Sabelli, C.; Nakai, I.; Katsura, S. Crystal structures of cetineite and its synthetic Na analogue Na3.6(Sb2O3)3(SbS3)(OH)0.6.2.4(H2O) American Mineralogist, 1988, 73, 398-404
9016764	CIF	Al Ca0.5 O4 Si	I -1	8.175; 12.873; 14.17 93.11; 115.89; 91.28	1337.8	Angel, R. J. High-pressure structure of anorthite Sample: P = 1 bar American Mineralogist, 1988, 73, 1114-1119
9016765	CIF	Al Ca0.5 O4 Si	I -1	8.082; 12.767; 14.032 92.79; 115.77; 91.68	1300.27	Angel, R. J. High-pressure structure of anorthite Sample: P = 25 kbar American Mineralogist, 1988, 73, 1114-1119
9016766	CIF	Al6.078 B3 Ca0.009 Cr0.006 Fe0.612 H4 K0.014 Mg2.274 Mn0.003 Na0.814 O34 Si6 Ti0.03	R 3 m :H	15.947; 15.947; 7.214 90; 90; 120	1588.78	Hawthorne, F. C.; MacDonald, D. J.; Burns, P. C. Reassignment of cation site occupancies in tourmaline: Al-Mg disorder in the crystal structure of dravite American Mineralogist, 1993, 78, 265-270
9016767	CIF	Al0.012 Ca0.008 Fe0.008 H4 Mg0.106 Mn1.85 O6 Si	P c a 21	12.672; 7.217; 5.341 90; 90; 90	488.455	Nyfeler, D.; Armbruster, T.; Dixon, R.; Bermanec, V. Nchwaningite, Mn2SiO3(OH)2.H2O, a new pyroxene-related chain silicate from the N'chwaning mine, Kalahari manganese field, South Africa American Mineralogist, 1995, 80, 377-386
9016768	CIF	C4 Ce2 F Na3 O12	P 63/m m c	5.0612; 5.0612; 22.82 90; 90; 120	506.236	Grice, J. D.; Chao, G. Y. Lukechangite-(Ce), a new rare-earth-fluorocarbonate mineral from Mont Saint-Hilaire, Quebec Note: U(1,2) for Na1, O1, O2 and F changed to match symmetry constraints. Note: U(2,3) for O2 changed to match symmetry constraints. American Mineralogist, 1997, 82, 1255-1260
9016769	CIF	C20 H34	P 1	11.407; 20.952; 7.406 93.941; 100.75; 80.499	1713.8	Bouska, V.; Cisarova, I.; Skala, R.; Dvorak, A.; Zelinka, J.; Zak, K. Hartite from Bilina American Mineralogist, 1998, 83, 1340-1346
9016771	CIF	Al Ca0.01 K0.004 Na0.996 O8 Si3	C -1	8.133; 12.773; 7.159 94.23; 116.64; 87.72	662.918	Meneghinello, E.; Alberti, A.; Cruciani, G. Order-disorder process in the tetrahedral sites af albite Sample: untreated American Mineralogist, 1999, 84, 1144-1151
9016772	CIF	Al Ca0.01 K0.004 Na0.996 O8 Si3	C -1	8.141; 12.795; 7.145 94.04; 116.56; 87.98	664.049	Meneghinello, E.; Alberti, A.; Cruciani, G. Order-disorder process in the tetrahedral sites af albite Sample: 1050-3d American Mineralogist, 1999, 84, 1144-1151
9016773	CIF	Al Ca0.01 K0.004 Na0.996 O8 Si3	C -1	8.17; 12.811; 7.141 93.79; 116.53; 88.09	667.248	Meneghinello, E.; Alberti, A.; Cruciani, G. Order-disorder process in the tetrahedral sites af albite Sample: 1060-6d American Mineralogist, 1999, 84, 1144-1151
9016774	CIF	Al Ca0.01 K0.004 Na0.996 O8 Si3	C -1	8.14; 12.791; 7.132 93.94; 116.54; 88.46	662.748	Meneghinello, E.; Alberti, A.; Cruciani, G. Order-disorder process in the tetrahedral sites af albite Sample: 1070-7d American Mineralogist, 1999, 84, 1144-1151
9016775	CIF	Al Ca0.01 K0.004 Na0.996 O8 Si3	C -1	8.142; 12.782; 7.136 94; 116.51; 88.13	662.946	Meneghinello, E.; Alberti, A.; Cruciani, G. Order-disorder process in the tetrahedral sites af albite Sample: 1080-7d American Mineralogist, 1999, 84, 1144-1151
9016776	CIF	Al Ca0.01 K0.004 Na0.996 O8 Si3	C -1	8.154; 12.794; 7.129 93.81; 116.54; 88.48	663.868	Meneghinello, E.; Alberti, A.; Cruciani, G. Order-disorder process in the tetrahedral sites af albite Sample: 1080-10d American Mineralogist, 1999, 84, 1144-1151
9016777	CIF	Al Ca0.01 K0.004 Na0.996 O8 Si3	C -1	8.16; 12.802; 7.13 93.72; 116.42; 88.61	665.624	Meneghinello, E.; Alberti, A.; Cruciani, G. Order-disorder process in the tetrahedral sites af albite Sample: 1090-7d American Mineralogist, 1999, 84, 1144-1151
9016778	CIF	Al Ca0.01 K0.004 Na0.996 O8 Si3	C -1	8.152; 12.831; 7.11 93.46; 116.52; 89.72	664.026	Meneghinello, E.; Alberti, A.; Cruciani, G. Order-disorder process in the tetrahedral sites af albite Sample: 1090-12d American Mineralogist, 1999, 84, 1144-1151
9016779	CIF	Al H2 Li O7 Si2	P 1	8.6061; 4.9573; 7.597 89.94; 114.407; 89.98	295.146	Ferro, O.; Quartieri, S.; Vezzalini, G.; Fois, E.; Gamba, A.; Tabacchi, G. High-pressure behaviour of bikitaite: An integrated theoretical and experimental approach Sample at P = 0 GPa American Mineralogist, 2002, 87, 1415-1425
9016789	CIF	Al1.97 F0.03 Fe1.23 H3.94 Li1.98 Mg1.8 Mn0.02 Na0.03 O23.97 Si7.99 Zn0.01	P n m a	18.277; 17.65; 5.2736 90; 90; 90	1701.21	Camara, F.; Oberti, R. The crystal-chemistry of holmquistites: Ferroholmquistite from Greenbushes (Western Australia) and hints for compositional constraints in B-Li amphiboles Sample: HS 119915 Siberia American Mineralogist, 2005, 90, 1167-1176
9016790	CIF	Al1.98 F0.02 Fe1.2 H3.96 Li1.71 Mg1.89 Mn0.01 Na0.03 O24 Si7.98	P n m a	18.277; 17.646; 5.2792 90; 90; 90	1702.63	Camara, F.; Oberti, R. The crystal-chemistry of holmquistites: Ferroholmquistite from Greenbushes (Western Australia) and hints for compositional constraints in B-Li amphiboles Sample: Siberia American Mineralogist, 2005, 90, 1167-1176
9016791	CIF	Al1.76 F0.07 Fe1.2 H3.86 Li1.97 Mg2.01 Mn0.04 Na0.02 O23.93 Si8 Zn0.01	P n m a	18.2754; 17.6569; 5.2738 90; 90; 90	1701.79	Camara, F.; Oberti, R. The crystal-chemistry of holmquistites: Ferroholmquistite from Greenbushes (Western Australia) and hints for compositional constraints in B-Li amphiboles Sample: Rwanda American Mineralogist, 2005, 90, 1167-1176
9016792	CIF	Al1.34 F0.09 Fe1.26 H3.82 Li1.98 Mg2.35 Mn0.04 Na0.05 O23.91 Si8 Zn0.01	P n m a	18.3345; 17.6955; 5.2764 90; 90; 90	1711.86	Camara, F.; Oberti, R. The crystal-chemistry of holmquistites: Ferroholmquistite from Greenbushes (Western Australia) and hints for compositional constraints in B-Li amphiboles Sample: Zaire American Mineralogist, 2005, 90, 1167-1176
9016793	CIF	Al1.3 F0.13 Fe1.3 H3.74 Li1.93 Mg2.32 Mn0.06 Na0.1 O23.87 Si8 Zn0.01	P n m a	18.335; 17.693; 5.2743 90; 90; 90	1710.99	Camara, F.; Oberti, R. The crystal-chemistry of holmquistites: Ferroholmquistite from Greenbushes (Western Australia) and hints for compositional constraints in B-Li amphiboles Sample: Uto, Sweden American Mineralogist, 2005, 90, 1167-1176
9016794	CIF	Al1.33 F0.1 Fe1.26 H3.8 Li1.93 Mg2.42 Mn0.04 Na0.05 O23.9 Si8 Zn0.01	P n m a	18.336; 17.693; 5.2755 90; 90; 90	1711.47	Camara, F.; Oberti, R. The crystal-chemistry of holmquistites: Ferroholmquistite from Greenbushes (Western Australia) and hints for compositional constraints in B-Li amphiboles Sample: Norway American Mineralogist, 2005, 90, 1167-1176
9016795	CIF	Al1.89 F0.03 Fe1.71 H3.94 K0.01 Li1.88 Mg1.47 Mn0.01 Na0.04 O23.97 Si8	P n m a	18.2872; 17.6797; 5.2784 90; 90; 90	1706.57	Camara, F.; Oberti, R. The crystal-chemistry of holmquistites: Ferroholmquistite from Greenbushes (Western Australia) and hints for compositional constraints in B-Li amphiboles Sample: Greenbushes, W Australia American Mineralogist, 2005, 90, 1167-1176
9016796	CIF	Fe H7 Na2 O12 S2	P 21 21 21	7.265; 20.522; 7.12 90; 90; 90	1061.54	Scordari, F.; Ventruti, G. Sideronatrite, Na2Fe(SO4)2(OH)*3H2O: Crystal structure of the orthorhombic polytype and OD character analysis American Mineralogist, 2009, 94, 1679-1686
9016797	CIF	Al2.936 Ca0.06 Fe0.438 H17.6 Mg5.68 Na0.04 O30.8 Si5.664 Ti0.042	P 1	5.3434; 9.254; 14.34 90.0002; 97.0909; 90.0002	703.658	Arguelles, A.; Leoni, M.; Blanco, J. A.; Marcos, C. Semi-ordered crystalline structure of the Santa Olalla vermiculite inferred from X-ray powder diffraction American Mineralogist, 2010, 95, 126-134
9016798	CIF	Fe0.26 H1.32 O4 Ti1.467	P 1 21/c 1	7.5259; 4.5741; 9.854 90; 130.784; 90	256.847	Grey, I. E.; Bordet, P.; Wilson, N. C.; Townend, R.; Bastow, T. J.; Brunelli, M. A new Al-rich hydroxylian pseudorutile from Kalimantan, Indonesia American Mineralogist, 2010, 95, 161-170
9016799	CIF	Al Ca F14 Mg3 Na3	R -3 m :R	7.1756; 7.1756; 7.1756 59.867; 59.867; 59.867	260.464	Mumme, W. G.; Grey, I. E.; Birch, W. D.; Pring, A.; Bougerol, C.; Wilson, N. C. Coulsellite, CaNa3AlMg3F14, a rhombohedral pyrochlore with 1:3 ordering in both A and B sites, from the Cleveland mine, Tasmania, Australia American Mineralogist, 2010, 95, 736-740
9016800	CIF	Al2 Ca O4	P 1 21/n 1	8.6996; 8.0994; 15.217 90; 90.188; 90	1072.21	Ma, C.; Kampf, A. R.; Connolly, H. C.; Beckett, J. R.; Rossman, G. R.; Sweeney Smith, S. A.; Schrader, D. L. Krotite, CaAl2O4, a new refractory mineral from the NWA 1934 meteorite American Mineralogist, 2011, 96, 709-715
9016801	CIF	Fe3 O4	F d -3 m :2	8.394; 8.394; 8.394 90; 90; 90	591.435	Glazyrin, K.; McCammon, C.; Dubrovinsky, L.; Merlini, M.; Schollenbruch, K.; Woodland, A.; Hanfland, M. Effect of high pressure on the crystal structure and electronic properties of magnetite below 25 GPa Note: P = 0.0001 GPa American Mineralogist, 2012, 97, 128-133
9016802	CIF	Fe3 O4	F d -3 m :2	8.35; 8.35; 8.35 90; 90; 90	582.183	Glazyrin, K.; McCammon, C.; Dubrovinsky, L.; Merlini, M.; Schollenbruch, K.; Woodland, A.; Hanfland, M. Effect of high pressure on the crystal structure and electronic properties of magnetite below 25 GPa Note: P = 2.9 GPa American Mineralogist, 2012, 97, 128-133
9016803	CIF	Fe3 O4	F d -3 m :2	8.328; 8.328; 8.328 90; 90; 90	577.593	Glazyrin, K.; McCammon, C.; Dubrovinsky, L.; Merlini, M.; Schollenbruch, K.; Woodland, A.; Hanfland, M. Effect of high pressure on the crystal structure and electronic properties of magnetite below 25 GPa Note: P = 4.4 GPa American Mineralogist, 2012, 97, 128-133
9016804	CIF	Fe3 O4	F d -3 m :2	8.304; 8.304; 8.304 90; 90; 90	572.614	Glazyrin, K.; McCammon, C.; Dubrovinsky, L.; Merlini, M.; Schollenbruch, K.; Woodland, A.; Hanfland, M. Effect of high pressure on the crystal structure and electronic properties of magnetite below 25 GPa Note: P = 6.3 GPa American Mineralogist, 2012, 97, 128-133
9016805	CIF	Fe3 O4	F d -3 m :2	8.272; 8.272; 8.272 90; 90; 90	566.02	Glazyrin, K.; McCammon, C.; Dubrovinsky, L.; Merlini, M.; Schollenbruch, K.; Woodland, A.; Hanfland, M. Effect of high pressure on the crystal structure and electronic properties of magnetite below 25 GPa Note: P = 8.6 GPa American Mineralogist, 2012, 97, 128-133
9016806	CIF	Fe3 O4	F d -3 m :2	8.261; 8.261; 8.261 90; 90; 90	563.765	Glazyrin, K.; McCammon, C.; Dubrovinsky, L.; Merlini, M.; Schollenbruch, K.; Woodland, A.; Hanfland, M. Effect of high pressure on the crystal structure and electronic properties of magnetite below 25 GPa Note: P = 10.0 GPa American Mineralogist, 2012, 97, 128-133
9016807	CIF	Fe3 O4	F d -3 m :2	8.249; 8.249; 8.249 90; 90; 90	561.311	Glazyrin, K.; McCammon, C.; Dubrovinsky, L.; Merlini, M.; Schollenbruch, K.; Woodland, A.; Hanfland, M. Effect of high pressure on the crystal structure and electronic properties of magnetite below 25 GPa Note: P = 11.0 GPa American Mineralogist, 2012, 97, 128-133
9016808	CIF	Fe3 O4	F d -3 m :2	8.236; 8.236; 8.236 90; 90; 90	558.662	Glazyrin, K.; McCammon, C.; Dubrovinsky, L.; Merlini, M.; Schollenbruch, K.; Woodland, A.; Hanfland, M. Effect of high pressure on the crystal structure and electronic properties of magnetite below 25 GPa Note: P = 12.1 GPa American Mineralogist, 2012, 97, 128-133
9016809	CIF	Fe3 O4	F d -3 m :2	8.225; 8.225; 8.225 90; 90; 90	556.426	Glazyrin, K.; McCammon, C.; Dubrovinsky, L.; Merlini, M.; Schollenbruch, K.; Woodland, A.; Hanfland, M. Effect of high pressure on the crystal structure and electronic properties of magnetite below 25 GPa Note: P = 12.9 GPa American Mineralogist, 2012, 97, 128-133
9016810	CIF	Fe3 O4	F d -3 m :2	8.207; 8.207; 8.207 90; 90; 90	552.781	Glazyrin, K.; McCammon, C.; Dubrovinsky, L.; Merlini, M.; Schollenbruch, K.; Woodland, A.; Hanfland, M. Effect of high pressure on the crystal structure and electronic properties of magnetite below 25 GPa Note: P = 14.4 GPa American Mineralogist, 2012, 97, 128-133
9016811	CIF	Fe3 O4	F d -3 m :2	8.198; 8.198; 8.198 90; 90; 90	550.965	Glazyrin, K.; McCammon, C.; Dubrovinsky, L.; Merlini, M.; Schollenbruch, K.; Woodland, A.; Hanfland, M. Effect of high pressure on the crystal structure and electronic properties of magnetite below 25 GPa Note: P = 15.1 GPa American Mineralogist, 2012, 97, 128-133
9016812	CIF	Fe3 O4	F d -3 m :2	8.184; 8.184; 8.184 90; 90; 90	548.147	Glazyrin, K.; McCammon, C.; Dubrovinsky, L.; Merlini, M.; Schollenbruch, K.; Woodland, A.; Hanfland, M. Effect of high pressure on the crystal structure and electronic properties of magnetite below 25 GPa Note: P = 16.0 GPa American Mineralogist, 2012, 97, 128-133
9016813	CIF	Fe3 O4	F d -3 m :2	8.174; 8.174; 8.174 90; 90; 90	546.14	Glazyrin, K.; McCammon, C.; Dubrovinsky, L.; Merlini, M.; Schollenbruch, K.; Woodland, A.; Hanfland, M. Effect of high pressure on the crystal structure and electronic properties of magnetite below 25 GPa Note: P = 17.0 GPa American Mineralogist, 2012, 97, 128-133
9016814	CIF	Fe3 O4	F d -3 m :2	8.158; 8.158; 8.158 90; 90; 90	542.939	Glazyrin, K.; McCammon, C.; Dubrovinsky, L.; Merlini, M.; Schollenbruch, K.; Woodland, A.; Hanfland, M. Effect of high pressure on the crystal structure and electronic properties of magnetite below 25 GPa Note: P = 18.1 GPa American Mineralogist, 2012, 97, 128-133
9016815	CIF	Fe3 O4	F d -3 m :2	8.149; 8.149; 8.149 90; 90; 90	541.144	Glazyrin, K.; McCammon, C.; Dubrovinsky, L.; Merlini, M.; Schollenbruch, K.; Woodland, A.; Hanfland, M. Effect of high pressure on the crystal structure and electronic properties of magnetite below 25 GPa Note: P = 19.1 GPa American Mineralogist, 2012, 97, 128-133
9016816	CIF	Fe3 O4	F d -3 m :2	8.138; 8.138; 8.138 90; 90; 90	538.956	Glazyrin, K.; McCammon, C.; Dubrovinsky, L.; Merlini, M.; Schollenbruch, K.; Woodland, A.; Hanfland, M. Effect of high pressure on the crystal structure and electronic properties of magnetite below 25 GPa Note: P = 20.0 GPa American Mineralogist, 2012, 97, 128-133
9016817	CIF	Fe3 O4	F d -3 m :2	8.125; 8.125; 8.125 90; 90; 90	536.377	Glazyrin, K.; McCammon, C.; Dubrovinsky, L.; Merlini, M.; Schollenbruch, K.; Woodland, A.; Hanfland, M. Effect of high pressure on the crystal structure and electronic properties of magnetite below 25 GPa Note: P = 21.1 GPa American Mineralogist, 2012, 97, 128-133
9016818	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.2331; 4.2331; 4.2331 90; 90; 90	75.853	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 0.0 GPa American Mineralogist, 2012, 97, 176-183
9016819	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1506; 4.1506; 4.1506 90; 90; 90	71.504	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 10.62 GPa American Mineralogist, 2012, 97, 176-183
9016820	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1049; 4.1049; 4.1049 90; 90; 90	69.168	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 17.63 GPa American Mineralogist, 2012, 97, 176-183
9016821	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0654; 4.0654; 4.0654 90; 90; 90	67.191	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 24.85 GPa American Mineralogist, 2012, 97, 176-183
9016822	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0369; 4.0369; 4.0369 90; 90; 90	65.788	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 30.25 GPa American Mineralogist, 2012, 97, 176-183
9016823	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0145; 4.0145; 4.0145 90; 90; 90	64.699	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 35.19 GPa American Mineralogist, 2012, 97, 176-183
9016824	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9962; 3.9962; 3.9962 90; 90; 90	63.818	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 39.40 GPa American Mineralogist, 2012, 97, 176-183
9016825	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9812; 3.9812; 3.9812 90; 90; 90	63.102	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 43.04 GPa American Mineralogist, 2012, 97, 176-183
9016826	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9673; 3.9673; 3.9673 90; 90; 90	62.443	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 46.39 GPa American Mineralogist, 2012, 97, 176-183
9016827	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.957; 3.957; 3.957 90; 90; 90	61.958	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 48.91 GPa American Mineralogist, 2012, 97, 176-183
9016828	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9459; 3.9459; 3.9459 90; 90; 90	61.438	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 51.31 GPa American Mineralogist, 2012, 97, 176-183
9016829	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9365; 3.9365; 3.9365 90; 90; 90	61	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 300 K, P = 52.98 GPa American Mineralogist, 2012, 97, 176-183
9016830	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1581; 4.1581; 4.1581 90; 90; 90	71.893	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 12.11 GPa American Mineralogist, 2012, 97, 176-183
9016831	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1113; 4.1113; 4.1113 90; 90; 90	69.492	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 19.50 GPa American Mineralogist, 2012, 97, 176-183
9016832	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0707; 4.0707; 4.0707 90; 90; 90	67.454	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 26.22 GPa American Mineralogist, 2012, 97, 176-183
9016833	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0423; 4.0423; 4.0423 90; 90; 90	66.052	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 32.06 GPa American Mineralogist, 2012, 97, 176-183
9016834	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.021; 4.021; 4.021 90; 90; 90	65.013	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 36.52 GPa American Mineralogist, 2012, 97, 176-183
9016835	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0014; 4.0014; 4.0014 90; 90; 90	64.067	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 40.83 GPa American Mineralogist, 2012, 97, 176-183
9016836	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9855; 3.9855; 3.9855 90; 90; 90	63.307	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 44.55 GPa American Mineralogist, 2012, 97, 176-183
9016837	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9708; 3.9708; 3.9708 90; 90; 90	62.609	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 48.26 GPa American Mineralogist, 2012, 97, 176-183
9016838	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9613; 3.9613; 3.9613 90; 90; 90	62.16	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 50.40 GPa American Mineralogist, 2012, 97, 176-183
9016839	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.951; 3.951; 3.951 90; 90; 90	61.677	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 52.70 GPa American Mineralogist, 2012, 97, 176-183
9016840	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9414; 3.9414; 3.9414 90; 90; 90	61.228	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 700 K, P = 54.52 GPa American Mineralogist, 2012, 97, 176-183
9016841	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1676; 4.1676; 4.1676 90; 90; 90	72.387	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 13.45 GPa American Mineralogist, 2012, 97, 176-183
9016842	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1187; 4.1187; 4.1187 90; 90; 90	69.868	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 20.82 GPa American Mineralogist, 2012, 97, 176-183
9016843	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0785; 4.0785; 4.0785 90; 90; 90	67.842	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 27.50 GPa American Mineralogist, 2012, 97, 176-183
9016844	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0489; 4.0489; 4.0489 90; 90; 90	66.376	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 33.12 GPa American Mineralogist, 2012, 97, 176-183
9016845	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0251; 4.0251; 4.0251 90; 90; 90	65.212	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 38.32 GPa American Mineralogist, 2012, 97, 176-183
9016846	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0069; 4.0069; 4.0069 90; 90; 90	64.332	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 42.17 GPa American Mineralogist, 2012, 97, 176-183
9016847	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9911; 3.9911; 3.9911 90; 90; 90	63.574	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 45.80 GPa American Mineralogist, 2012, 97, 176-183
9016848	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9775; 3.9775; 3.9775 90; 90; 90	62.926	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 49.32 GPa American Mineralogist, 2012, 97, 176-183
9016849	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9676; 3.9676; 3.9676 90; 90; 90	62.457	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 51.61 GPa American Mineralogist, 2012, 97, 176-183
9016850	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9581; 3.9581; 3.9581 90; 90; 90	62.01	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 53.53 GPa American Mineralogist, 2012, 97, 176-183
9016851	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9481; 3.9481; 3.9481 90; 90; 90	61.541	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.83,Fe0.17)O, T = 1100 K, P = 55.47 GPa American Mineralogist, 2012, 97, 176-183
9016852	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.2426; 4.2426; 4.2426 90; 90; 90	76.365	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 0.0 GPa American Mineralogist, 2012, 97, 176-183
9016853	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1714; 4.1714; 4.1714 90; 90; 90	72.585	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 8.96 GPa American Mineralogist, 2012, 97, 176-183
9016854	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.143; 4.143; 4.143 90; 90; 90	71.112	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 13.05 GPa American Mineralogist, 2012, 97, 176-183
9016855	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1101; 4.1101; 4.1101 90; 90; 90	69.432	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 18.85 GPa American Mineralogist, 2012, 97, 176-183
9016856	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0824; 4.0824; 4.0824 90; 90; 90	68.037	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 23.83 GPa American Mineralogist, 2012, 97, 176-183
9016857	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.059; 4.059; 4.059 90; 90; 90	66.874	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 28.32 GPa American Mineralogist, 2012, 97, 176-183
9016858	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.041; 4.041; 4.041 90; 90; 90	65.988	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 31.78 GPa American Mineralogist, 2012, 97, 176-183
9016859	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0269; 4.0269; 4.0269 90; 90; 90	65.3	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 34.79 GPa American Mineralogist, 2012, 97, 176-183
9016860	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0148; 4.0148; 4.0148 90; 90; 90	64.713	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 37.59 GPa American Mineralogist, 2012, 97, 176-183
9016861	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0044; 4.0044; 4.0044 90; 90; 90	64.211	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 40.01 GPa American Mineralogist, 2012, 97, 176-183
9016862	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9877; 3.9877; 3.9877 90; 90; 90	63.411	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 44.23 GPa American Mineralogist, 2012, 97, 176-183
9016863	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9717; 3.9717; 3.9717 90; 90; 90	62.651	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 48.08 GPa American Mineralogist, 2012, 97, 176-183
9016864	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9525; 3.9525; 3.9525 90; 90; 90	61.747	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 52.35 GPa American Mineralogist, 2012, 97, 176-183
9016865	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9364; 3.9364; 3.9364 90; 90; 90	60.995	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 300 K, P = 55.09 GPa American Mineralogist, 2012, 97, 176-183
9016866	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1782; 4.1782; 4.1782 90; 90; 90	72.94	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 10.94 GPa American Mineralogist, 2012, 97, 176-183
9016867	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.145; 4.145; 4.145 90; 90; 90	71.215	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 15.12 GPa American Mineralogist, 2012, 97, 176-183
9016868	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1158; 4.1158; 4.1158 90; 90; 90	69.721	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 20.51 GPa American Mineralogist, 2012, 97, 176-183
9016869	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0867; 4.0867; 4.0867 90; 90; 90	68.252	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 25.78 GPa American Mineralogist, 2012, 97, 176-183
9016870	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0634; 4.0634; 4.0634 90; 90; 90	67.092	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 30.14 GPa American Mineralogist, 2012, 97, 176-183
9016871	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0442; 4.0442; 4.0442 90; 90; 90	66.145	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 33.92 GPa American Mineralogist, 2012, 97, 176-183
9016872	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0318; 4.0318; 4.0318 90; 90; 90	65.539	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 36.52 GPa American Mineralogist, 2012, 97, 176-183
9016873	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0179; 4.0179; 4.0179 90; 90; 90	64.863	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 39.67 GPa American Mineralogist, 2012, 97, 176-183
9016874	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0072; 4.0072; 4.0072 90; 90; 90	64.346	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 42.01 GPa American Mineralogist, 2012, 97, 176-183
9016875	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9908; 3.9908; 3.9908 90; 90; 90	63.559	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 46.21 GPa American Mineralogist, 2012, 97, 176-183
9016876	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9743; 3.9743; 3.9743 90; 90; 90	62.774	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 50.28 GPa American Mineralogist, 2012, 97, 176-183
9016877	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9576; 3.9576; 3.9576 90; 90; 90	61.986	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 54.28 GPa American Mineralogist, 2012, 97, 176-183
9016878	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9399; 3.9399; 3.9399 90; 90; 90	61.158	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 700 K, P = 57.85 GPa American Mineralogist, 2012, 97, 176-183
9016879	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1874; 4.1874; 4.1874 90; 90; 90	73.423	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 12.27 GPa American Mineralogist, 2012, 97, 176-183
9016880	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1545; 4.1545; 4.1545 90; 90; 90	71.706	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 16.80 GPa American Mineralogist, 2012, 97, 176-183
9016881	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.1211; 4.1211; 4.1211 90; 90; 90	69.991	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 22.46 GPa American Mineralogist, 2012, 97, 176-183
9016882	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0925; 4.0925; 4.0925 90; 90; 90	68.543	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 27.45 GPa American Mineralogist, 2012, 97, 176-183
9016883	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0689; 4.0689; 4.0689 90; 90; 90	67.364	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 31.64 GPa American Mineralogist, 2012, 97, 176-183
9016884	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0515; 4.0515; 4.0515 90; 90; 90	66.504	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 35.29 GPa American Mineralogist, 2012, 97, 176-183
9016885	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0352; 4.0352; 4.0352 90; 90; 90	65.705	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 38.72 GPa American Mineralogist, 2012, 97, 176-183
9016886	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0244; 4.0244; 4.0244 90; 90; 90	65.178	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 41.10 GPa American Mineralogist, 2012, 97, 176-183
9016887	CIF	Fe0.17 Mg0.83 O	F m -3 m	4.0122; 4.0122; 4.0122 90; 90; 90	64.587	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 43.63 GPa American Mineralogist, 2012, 97, 176-183
9016888	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9972; 3.9972; 3.9972 90; 90; 90	63.866	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 47.43 GPa American Mineralogist, 2012, 97, 176-183
9016889	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9786; 3.9786; 3.9786 90; 90; 90	62.978	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 51.42 GPa American Mineralogist, 2012, 97, 176-183
9016890	CIF	Fe0.17 Mg0.83 O	F m -3 m	3.9602; 3.9602; 3.9602 90; 90; 90	62.109	Matsui, M.; Ito, E.; Yamazaki, D.; Yoshino, T.; Guo, X.; Shan, S.; Higo, Y.; Funakoshi, F. I. Static compression of (Mg0.83,Fe0.17)O and (Mg0.75,Fe0.25)O ferropericlase up to 58 GPa at 300, 700, and 1100 K Note: (Mg0.75,Fe0.25)O, T = 1100 K, P = 55.52 GPa American Mineralogist, 2012, 97, 176-183
9016891	CIF	Fe4.509 S5	P 1 21 1	6.8673; 28.6536; 6.8592 90; 119.975; 90	1169.17	Liles, D. C.; de Villiers, J. P. R. Redetermination of structure of 5C pyrrhotite at low temperature and at room temperature T = 120 K American Mineralogist, 2012, 97, 257-261
9016892	CIF	Fe4.51 S5	P 1 21 1	6.8984; 28.695; 6.8915 90; 119.956; 90	1181.93	Liles, D. C.; de Villiers, J. P. R. Redetermination of structure of 5C pyrrhotite at low temperature and at room temperature T = 293 K American Mineralogist, 2012, 97, 257-261
9016893	CIF	Fe4.503 S5	P 1 21 1	6.893; 28.643; 6.899 90; 120.048; 90	1179.05	Liles, D. C.; de Villiers, J. P. R. Redetermination of structure of 5C pyrrhotite at low temperature and at room temperature T = 293 K American Mineralogist, 2012, 97, 257-261
9016894	CIF	Ca2 O14 Ti4 Zr2	C 1 2/c 1	12.443024; 7.272901; 11.380867 90; 100.564; 90	1012.47	Whittle, K. R.; Hyatt, N. C.; Smith, K. L.; Margiolaki, I.; Berry, F. J.; Knight, K. S.; Lumpkin, G. R. Combined neutron and X-ray diffraction determination of disorder in doped zirconolite-2M Note: CaZrTi2O7 American Mineralogist, 2012, 97, 291-298
9016895	CIF	Ca2 Fe Nb0.99 O14 Ti2.01 Zr2	C 1 2/c 1	12.527951; 7.304224; 11.426725 90; 100.602; 90	1027.78	Whittle, K. R.; Hyatt, N. C.; Smith, K. L.; Margiolaki, I.; Berry, F. J.; Knight, K. S.; Lumpkin, G. R. Combined neutron and X-ray diffraction determination of disorder in doped zirconolite-2M Note: CaZrTiFe0.5Nb0.5O7 American Mineralogist, 2012, 97, 291-298
9016896	CIF	Ca2 Fe2 Nb2 O14 Zr2	C 1 2/c 1	12.670281; 7.378349; 11.525772 90; 100.67; 90	1058.87	Whittle, K. R.; Hyatt, N. C.; Smith, K. L.; Margiolaki, I.; Berry, F. J.; Knight, K. S.; Lumpkin, G. R. Combined neutron and X-ray diffraction determination of disorder in doped zirconolite-2M Note: CaZrFeNbO7, model 1 American Mineralogist, 2012, 97, 291-298
9016897	CIF	Ca2 Fe2 Nb2 O14 Zr2	C 1 2/c 1	12.670281; 7.378349; 11.525772 90; 100.67; 90	1058.87	Whittle, K. R.; Hyatt, N. C.; Smith, K. L.; Margiolaki, I.; Berry, F. J.; Knight, K. S.; Lumpkin, G. R. Combined neutron and X-ray diffraction determination of disorder in doped zirconolite-2M Note: CaZrFeNbO7, model 2 American Mineralogist, 2012, 97, 291-298
9016898	CIF	Ca2 Fe2 Nb2 O14 Zr2	C 1 2/c 1	12.670281; 7.378349; 11.525772 90; 100.67; 90	1058.87	Whittle, K. R.; Hyatt, N. C.; Smith, K. L.; Margiolaki, I.; Berry, F. J.; Knight, K. S.; Lumpkin, G. R. Combined neutron and X-ray diffraction determination of disorder in doped zirconolite-2M Note: CaZrFeNbO7, model 3 American Mineralogist, 2012, 97, 291-298
9016899	CIF	Al6.692 B O18 Si2.943	P n m a	4.6882; 11.7924; 20.1856 90; 90; 90	1115.96	Evans, R. J.; Fyfe, C. A.; Groat, L. A.; Lam, A. E. MAS NMR measurements and ab initio calculations of the 29Si chemical shifts in dumortierite and holtite American Mineralogist, 2012, 97, 329-340
9016900	CIF	Cl O12 P3 Pb5	P 63/m	10.0017; 10.0017; 7.3413 90; 90; 120	635.991	Mills, S. J.; Ferraris, G.; Kampf, A. R.; Favreau, G. Twinning in pyromorphite: The first documented occurrence of twinning by merohedry in the apatite supergroup American Mineralogist, 2012, 97, 415-418
9016901	CIF	Al1.11 Ba0.01 Cr0.02 F0.02 Fe0.41 H1.22 K0.94 Mg2.23 Na0.05 O11.76 Si2.91 Ti0.32	C 1 2/c 1	5.3273; 9.2231; 20.1964 90; 95.121; 90	988.373	Scordari, F.; Schingaro, E.; Lacalamita, M.; Mesto, E. Crystal chemistry of trioctahedral micas-2M_1 from Bunyaruguru kamafugite (southwest Uganda) Note: BU3_1 American Mineralogist, 2012, 97, 430-439
9016902	CIF	Al1.09 Ba0.01 Cr0.02 F0.02 Fe0.42 H1.15 K0.94 Mg2.16 Na0.04 O11.83 Si2.96 Ti0.33	C 1 2/c 1	5.3255; 9.2285; 20.1897 90; 94.994; 90	988.484	Scordari, F.; Schingaro, E.; Lacalamita, M.; Mesto, E. Crystal chemistry of trioctahedral micas-2M_1 from Bunyaruguru kamafugite (southwest Uganda) Note: BU3_2 American Mineralogist, 2012, 97, 430-439
9016903	CIF	Al1.12 Ba0.01 Cr0.02 F0.02 Fe0.4 H1.24 K0.93 Mg2.23 Na0.04 O11.74 Si2.91 Ti0.32	C 1 2/c 1	5.3252; 9.2246; 20.1908 90; 95.086; 90	987.924	Scordari, F.; Schingaro, E.; Lacalamita, M.; Mesto, E. Crystal chemistry of trioctahedral micas-2M_1 from Bunyaruguru kamafugite (southwest Uganda) Note: BU3_6 American Mineralogist, 2012, 97, 430-439
9016904	CIF	Al1.09 Ba0.01 F0.02 Fe0.58 H K0.94 Mg2 Na0.04 O11.98 Si2.93 Ti0.4	C 1 2/c 1	5.3283; 9.2304; 20.1565 90; 95.131; 90	987.371	Scordari, F.; Schingaro, E.; Lacalamita, M.; Mesto, E. Crystal chemistry of trioctahedral micas-2M_1 from Bunyaruguru kamafugite (southwest Uganda) Note: BU3_10 American Mineralogist, 2012, 97, 430-439
9016905	CIF	Al1.1 Ba0.01 Ca0.01 Fe0.55 K0.91 Mg2 Na0.04 O11.98 Si2.96 Ti0.38	C 1 2/c 1	5.3307; 9.2315; 20.155 90; 95.095; 90	987.916	Scordari, F.; Schingaro, E.; Lacalamita, M.; Mesto, E. Crystal chemistry of trioctahedral micas-2M_1 from Bunyaruguru kamafugite (southwest Uganda) Note: BU3_12 American Mineralogist, 2012, 97, 430-439
9016906	CIF	Al7.807 B3 Ca0.103 Fe1.108 Mg0.572 Mn0.005 Na0.591 O31 Si5.506 Ti0.002	R 3 m :H	15.916; 15.916; 7.1071 90; 90; 120	1559.16	Bacik, P.; Cempirek, J.; Uher, P.; Novak, M.; Ozdin, D.; Filip, J.; Skoda, R.; Breiter, K.; Klementova, M.; Duda, R.; Groat, L. A. Oxy-schorl, Na(Fe2+2Al)Al6Si6O18(BO3)3(OH)3O, a new mineral from Zlata Idka, Slovak Republic and Pribyslavice, Czech Republic American Mineralogist, 2013, 98, 485-492
9016907	CIF	Al6.801 B3 Ca0.017 F0.307 Fe1.957 H6.115 K0.006 Mg0.19 Mn0.015 Na0.586 O30.694 Si5.944 Ti0.093	R 3 m :H	15.9853; 15.9853; 7.1538 90; 90; 120	1583.1	Bacik, P.; Cempirek, J.; Uher, P.; Novak, M.; Ozdin, D.; Filip, J.; Skoda, R.; Breiter, K.; Klementova, M.; Duda, R.; Groat, L. A. Oxy-schorl, Na(Fe2+2Al)Al6Si6O18(BO3)3(OH)3O, a new mineral from Zlata Idka, Slovak Republic and Pribyslavice, Czech Republic American Mineralogist, 2013, 98, 485-492
9016908	CIF	B3 H3 Mg2.586 Na O31 Si6 V6.189	R 3 m :H	16.1908; 16.1908; 7.4143 90; 90; 120	1683.21	Bosi, F.; Reznitskii, L.; Sklyarov, E. V. Oxy-vanadium-dravite, NaV3(V4Mg2)(Si6O18)(BO3)3(OH)3O: Crystal structure and redefinition of the "vanadium-dravite" tourmaline American Mineralogist, 2013, 98, 501-505
9016909	CIF	Al5.608 Bi0.496 Ca8.701 Ce0.043 Fe0.612 Mg0.156 Mn0.344 O39 Si8.66	P 4/n n c :2	15.7018; 15.7018; 11.8648 90; 90; 90	2925.23	Halenius, U.; Bosi, F.; Gatedal, K. Crystal structure and chemistry of skarn-associated bismuthian vesuvianite American Mineralogist, 2013, 98, 566-573
9016910	CIF	Al0.596 Ca1.42 H2 Mg4.74 Na0.6 O24 Si7.824	C 1 2/m 1	9.8076; 18.0004; 5.2804 90; 104.575; 90	902.206	Jenkins, D. M.; Della Ventura, G.; Oberti, R.; Bozhilov, K. Synthesis and characterization of amphiboles along the tremolite-glaucophane join Note: Sample WIN 9-1 American Mineralogist, 2013, 98, 588-600
9016911	CIF	Al0.618 Ca1.42 H2 Mg4.88 Na0.65 O24 Si7.712	C 1 2/m 1	9.7739; 17.9636; 5.2659 90; 104.423; 90	895.418	Jenkins, D. M.; Della Ventura, G.; Oberti, R.; Bozhilov, K. Synthesis and characterization of amphiboles along the tremolite-glaucophane join Note: Sample WIN 4-2 American Mineralogist, 2013, 98, 588-600
9016912	CIF	Al1.15 Cr0.05 F0.03 Fe0.36 H1.32 K0.92 Mg2.28 Na0.04 Ni0.01 O11.97 Si2.88 Ti0.27	P 31 1 2	5.3235; 5.3235; 30.188 90; 90; 120	740.9	Schingaro, E.; Lacalamita, M.; Scordari, F.; Mesto, E. 3T-phlogopite from Kasenyi kamafugite (SW Uganda): EPMA, XPS, FTIR, and SCXRD study American Mineralogist, 2013, 98, 709-717
9016913	CIF	Ca H17 O25.5 Si5 U2	P b c n	18.3; 14.2331; 17.9192 90; 90; 90	4667.34	Plasil, J.; Fejfarova, K.; Cejka, J.; Dusek, M.; Skoda, R.; Sejkora, J. Revision of the crystal structure and chemical formula of haiweeite, Ca(UO2)2(Si5O12)(OH)2*6H2O American Mineralogist, 2013, 98, 718-723
9016914	CIF	Fe2 O4 Ti	F d -3 m :1	8.448; 8.448; 8.448 90; 90; 90	602.923	Yamanaka, T.; Kyono, A.; Nakamoto, Y.; Meng, Y.; Kharlamova, S.; Struzhkin, V. V.; Mao, H. High-pressure phase transitions of Fe3-xTixO4 solid solution up to 60 GPa correlated with electronic spin transition Note: P = 5.58 GPa American Mineralogist, 2013, 98, 736-744
9016915	CIF	Fe2 O4 Ti	F d -3 m :1	8.521; 8.521; 8.521 90; 90; 90	618.688	Yamanaka, T.; Kyono, A.; Nakamoto, Y.; Meng, Y.; Kharlamova, S.; Struzhkin, V. V.; Mao, H. High-pressure phase transitions of Fe3-xTixO4 solid solution up to 60 GPa correlated with electronic spin transition Note: P = 7 GPa American Mineralogist, 2013, 98, 736-744
9016916	CIF	Fe2 O4 Ti	I 41/a m d :2	5.9052; 5.9052; 8.1834 90; 90; 90	285.367	Yamanaka, T.; Kyono, A.; Nakamoto, Y.; Meng, Y.; Kharlamova, S.; Struzhkin, V. V.; Mao, H. High-pressure phase transitions of Fe3-xTixO4 solid solution up to 60 GPa correlated with electronic spin transition Note: P = 14 GPa American Mineralogist, 2013, 98, 736-744
9016917	CIF	Fe2 O4 Ti	C m c m	2.685; 9.228; 9.099 90; 90; 90	225.448	Yamanaka, T.; Kyono, A.; Nakamoto, Y.; Meng, Y.; Kharlamova, S.; Struzhkin, V. V.; Mao, H. High-pressure phase transitions of Fe3-xTixO4 solid solution up to 60 GPa correlated with electronic spin transition Note: P = 50 GPa American Mineralogist, 2013, 98, 736-744
9016918	CIF	Fe2 O4 Ti	P m m a	9.059; 2.659; 9.166 90; 90; 90	220.79	Yamanaka, T.; Kyono, A.; Nakamoto, Y.; Meng, Y.; Kharlamova, S.; Struzhkin, V. V.; Mao, H. High-pressure phase transitions of Fe3-xTixO4 solid solution up to 60 GPa correlated with electronic spin transition Note: P = 61 GPa American Mineralogist, 2013, 98, 736-744
9016919	CIF	Al0.16 Ca0.06 Dy0.01 Er0.01 Fe0.02 Gd0.01 Mg0.11 O3 Sc0.54 Ti0.66 V0.03 Y0.07 Zr0.13	I a -3	9.842; 9.842; 9.842 90; 90; 90	953.345	Ma, C.; Tschauner, O.; Beckett, J. R.; Rossman, G. R.; Liu, W. Kangite, (Sc,Ti,Al,Zr,Mg,Ca,[_])2O3, a new ultra-refractory scandia mineral from the Allende meteorite: Synchrotron micro-Laue diffraction and electron backscatter diffraction Note: x-coordinate of Sc2, and coordinates of O atoms are changed by personal email with authors May 2013 American Mineralogist, 2013, 98, 870-878
9016920	CIF	Ag Bi1.47 Pb S6 Sb1.53	P 1 21/c 1	6.9764; 19.3507; 8.387 90; 107.519; 90	1079.71	Yang, H.; Downs, R. T.; Evans, S. H.; Pinch, W. W. Terrywallaceite, AgPb(Sb,Bi)3S6, isotypic with gustavite, a new mineral from Mina Herminia, Julcani Mining District, Huancavelica, Peru American Mineralogist, 2013, 98, 1310-1131
9016921	CIF	F2 Fe0.605 K0.905 Mg2.395 O10 Si3.944	C 1 2/m 1	5.3192; 9.2181; 10.1096 90; 100.168; 90	487.918	Scordari, F.; Schingaro, E.; Ventruti, G.; Nicotra, E.; Viccaro, M.; Tagliani, S. M. Fluorophlogopite from Piano delle Concazze (Mt. Etna, Italy): Crystal chemistry and implications for the crystallization conditions Note: Sample E0 American Mineralogist, 2013, 98, 1017-1025
9016922	CIF	F2 Fe0.62 K0.913 Mg2.38 O10 Si3.928	C 1 2/m 1	5.3239; 9.2204; 10.1192 90; 100.185; 90	488.909	Scordari, F.; Schingaro, E.; Ventruti, G.; Nicotra, E.; Viccaro, M.; Tagliani, S. M. Fluorophlogopite from Piano delle Concazze (Mt. Etna, Italy): Crystal chemistry and implications for the crystallization conditions Note: Sample E1 American Mineralogist, 2013, 98, 1017-1025
9016923	CIF	F2 Fe0.61 K0.894 Mg2.39 O10 Si3.945	C 1 2/m 1	5.32; 9.2138; 10.113 90; 100.228; 90	487.836	Scordari, F.; Schingaro, E.; Ventruti, G.; Nicotra, E.; Viccaro, M.; Tagliani, S. M. Fluorophlogopite from Piano delle Concazze (Mt. Etna, Italy): Crystal chemistry and implications for the crystallization conditions Note: Sample E2 American Mineralogist, 2013, 98, 1017-1025
9016924	CIF	F2 Fe0.232 K0.897 Mg2.767 O10 Si3.923	C 1 2/m 1	5.3237; 9.2221; 10.1159 90; 100.249; 90	488.723	Scordari, F.; Schingaro, E.; Ventruti, G.; Nicotra, E.; Viccaro, M.; Tagliani, S. M. Fluorophlogopite from Piano delle Concazze (Mt. Etna, Italy): Crystal chemistry and implications for the crystallization conditions Note: Sample E3 American Mineralogist, 2013, 98, 1017-1025
9016925	CIF	Ca0.5 Fe1.5 O6 Si2	C 1 2/c 1	9.793; 9.078; 5.238 90; 106.27; 90	447.014	Abdu, Y. A.; Hawthorne, F. C. Local structure in C2/c clinopyroxenes on the hedenbergite (CaFeSi2O6)- ferrosilite (Fe2Si2O6) join: A new interpretation for the Mossbauer spectra of Ca-rich C2/c clinopyroxenes and implications for pyroxene exsolution Note split-M2-O2-O3 model Sample: Hd50Fs50 American Mineralogist, 2013, 98, 1227-1234
9016927	CIF	Ca0.6 Fe1.4 O6 Si2	C 1 2/c 1	9.806; 9.068; 5.238 90; 105.92; 90	447.903	Abdu, Y. A.; Hawthorne, F. C. Local structure in C2/c clinopyroxenes on the hedenbergite (CaFeSi2O6)- ferrosilite (Fe2Si2O6) join: A new interpretation for the Mossbauer spectra of Ca-rich C2/c clinopyroxenes and implications for pyroxene exsolution Note split-M2-O2-O3 model Sample: Hd60Fs40 American Mineralogist, 2013, 98, 1227-1234
9016928	CIF	Ca0.7 Fe1.3 O6 Si2	C 1 2/c 1	9.819; 9.056; 5.242 90; 105.61; 90	448.931	Abdu, Y. A.; Hawthorne, F. C. Local structure in C2/c clinopyroxenes on the hedenbergite (CaFeSi2O6)- ferrosilite (Fe2Si2O6) join: A new interpretation for the Mossbauer spectra of Ca-rich C2/c clinopyroxenes and implications for pyroxene exsolution Note split-M2-O2-O3 model Sample: Hd70Fs30 American Mineralogist, 2013, 98, 1227-1234
9016929	CIF	Ca0.8 Co1.2 O6 Si2	C 1 2/c 1	9.794; 8.953; 5.243 90; 105.66; 90	442.671	Mantovani, L.; Tribaudino, M.; Mezzadri, F.; Calestani, G.; Bromiley, G. The structure of (Ca,Co)CoSi2O6 pyroxenes and the Ca-M2+ substitution in (Ca,M2+)M2+Si2O6 pyroxenes (M2+=Co,Fe,Mg) Sample: Ca0.8Co0.2 American Mineralogist, 2013, 98, 1241-1252
9016930	CIF	Ca0.6 Co1.4 O6 Si2	C 1 2/c 1	9.7754; 8.9686; 5.2421 90; 106.302; 90	441.106	Mantovani, L.; Tribaudino, M.; Mezzadri, F.; Calestani, G.; Bromiley, G. The structure of (Ca,Co)CoSi2O6 pyroxenes and the Ca-M2+ substitution in (Ca,M2+)M2+Si2O6 pyroxenes (M2+=Co,Fe,Mg) Sample: Ca0.6Co0.4 American Mineralogist, 2013, 98, 1241-1252
9016931	CIF	Ca0.4 Co1.6 O6 Si2	C 1 2/c 1	9.747; 8.982; 5.249 90; 107.46; 90	438.365	Mantovani, L.; Tribaudino, M.; Mezzadri, F.; Calestani, G.; Bromiley, G. The structure of (Ca,Co)CoSi2O6 pyroxenes and the Ca-M2+ substitution in (Ca,M2+)M2+Si2O6 pyroxenes (M2+=Co,Fe,Mg) Sample: Ca0.4Co0.6 American Mineralogist, 2013, 98, 1241-1252
9016932	CIF	Cu1.75 H7 O9 P Zn1.25	P 1 21/c 1	7.4863; 10.1933; 9.7895 90; 103.18; 90	727.36	Danisi, R. M.; Armbruster, T.; Lazic, B.; Vulic, P.; Kaindl, R.; Dimitrijevic, R.; Kahlenberg, V. In situ dehydration behavior of veszelyite (Cu,Zn)2Zn(PO4)(OH)3*2H2O: A single-crystal X-ray study Note: T = 173 K American Mineralogist, 2013, 98, 1261-1269
9016933	CIF	Cu2 H7 O9 P Zn	P 1 21/c 1	7.5096; 10.2281; 9.8258 90; 103.304; 90	734.455	Danisi, R. M.; Armbruster, T.; Lazic, B.; Vulic, P.; Kaindl, R.; Dimitrijevic, R.; Kahlenberg, V. In situ dehydration behavior of veszelyite (Cu,Zn)2Zn(PO4)(OH)3*2H2O: A single-crystal X-ray study Note: T = 296 K American Mineralogist, 2013, 98, 1261-1269
9016934	CIF	Cu2 H5 O8 P Zn	P 1 21/c 1	7.252; 9.233; 10.52 90; 102.076; 90	688.808	Danisi, R. M.; Armbruster, T.; Lazic, B.; Vulic, P.; Kaindl, R.; Dimitrijevic, R.; Kahlenberg, V. In situ dehydration behavior of veszelyite (Cu,Zn)2Zn(PO4)(OH)3*2H2O: A single-crystal X-ray study Note: T = 473 K American Mineralogist, 2013, 98, 1261-1269
9016935	CIF	Al Fe0.056 H3.994 Mn0.943 O7 P	C m c e	6.9263; 10.4356; 13.5234 90; 90; 90	977.473	Diego Gatta, G.; Nenert, G.; Vignola, P. Coexisting hydroxyl groups and H2O molecules in minerals: A single-crystal neutron diffraction study of eosphorite, MnAlPO4(OH)2*H2O Note: T = 20 K American Mineralogist, 2013, 98, 1297-1301
9016936	CIF	C H8 Ca2 O11 S	P c n b	15.524; 19.218; 6.161 90; 90; 90	1838.07	Onac, B. P.; Effenberger, H. S.; Wynn, J. G.; Povara, I. Rapidcreekite in the sulfuric acid weathering environment of Diana Cave, Romania American Mineralogist, 2013, 98, 1302-1309
9016937	CIF	Cu2 H2 O8.5 Pb0.999 S0.5 Te	P 1 21/c 1	14.3126; 5.2267; 9.4878 90; 106.815; 90	679.414	Kampf, A. R.; Mills, S. J.; Housley, R. M.; Rossman, G. R.; Marty, J.; Thorne, B. Lead-tellurium oxysalts from Otto Mountain near Baker, California: X. Bairdite, Pb2Cu2+4Te6+2O10(OH)2(SO4)(H2O), a new mineral with thick HCP layers American Mineralogist, 2013, 98, 1315-1321
9016938	CIF	C2 H22.34 Al Ca0.05 Dy0.17 Er0.15 F0.66 Gd0.07 O22.34 Pb0.057 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
9016939	CIF	Al8.759 As0.416 B2.604 Ca18.696 Fe4.36 O79.048 Si17.769	P 4/n n c :2	15.725; 15.725; 11.7736 90; 90; 90	2911.32	Groat, L. A.; Evans, R. J.; Cempirek, J.; McCammon, C.; Houzar, S. Fe-rich and As-bearing vesuvianite and wiluite from Kozlov, Czech Republic American Mineralogist, 2013, 98, 1330-1337
9016940	CIF	Ca H2 O2	I 1 2 1	5.8882; 6.8408; 8.9334 90; 104.798; 90	347.902	Iizuka, R.; Yagi, T.; Komatsu, K.; Gotou, H.; Tsuchiya, T.; Kusaba, K.; Kagi, H. Crystal structure of the high-pressure phase of calcium hydroxide, portlandite: In situ powder and single crystal X-ray diffraction study Note: P = 8.9 GPa American Mineralogist, 2013, 98, 1421-1428
9016941	CIF	Al6.291 B3 Fe0.627 H3.24 K0.02 Mg2.061 Na0.83 O31 Si6 Ti0.021	R 3 m :H	15.9273; 15.9273; 7.2001 90; 90; 120	1581.81	Bosi, F.; Skogby, H. Oxy-dravite, Na(Al2Mg)(Al5Mg)(Si6O18)(BO3)3(OH)3O, a new mineral species of the tourmaline supergroup American Mineralogist, 2013, 98, 1442-1448
9016942	CIF	Fe0.292 Mg0.709 O3 Si	P b c a	18.281; 8.8732; 5.207 90; 90; 90	844.633	Jacob, D.; Palatinus, L.; Cuvillier, P.; Leroux, H.; Domeneghetti, C.; Camara, F. Ordering state in orthopyroxene as determined by precession electron diffraction American Mineralogist, 2013, 98, 1526-1534
9016943	CIF	Fe0.296 Mg0.704 O3 Si	P b c a	18.3022; 8.8816; 5.2082 90; 90; 90	846.608	Jacob, D.; Palatinus, L.; Cuvillier, P.; Leroux, H.; Domeneghetti, C.; Camara, F. Ordering state in orthopyroxene as determined by precession electron diffraction American Mineralogist, 2013, 98, 1526-1534
9016944	CIF	Fe0.292 Mg0.709 O3 Si	P b c a	18.281; 8.8732; 5.207 90; 90; 90	844.633	Jacob, D.; Palatinus, L.; Cuvillier, P.; Leroux, H.; Domeneghetti, C.; Camara, F. Ordering state in orthopyroxene as determined by precession electron diffraction American Mineralogist, 2013, 98, 1526-1534
9016945	CIF	Fe0.296 Mg0.704 O3 Si	P b c a	18.3022; 8.8816; 5.2082 90; 90; 90	846.608	Jacob, D.; Palatinus, L.; Cuvillier, P.; Leroux, H.; Domeneghetti, C.; Camara, F. Ordering state in orthopyroxene as determined by precession electron diffraction American Mineralogist, 2013, 98, 1526-1534
9016946	CIF	Al3.807 B3 Ca0.19 Cr2.103 F0.23 Fe0.468 H3.08 K0.02 Mg2.412 Na0.76 O30.77 Si6 Ti0.06 V0.192	R 3 m :H	16.0032; 16.0032; 7.2823 90; 90; 120	1615.15	Bosi, F.; Skogby, H.; Halenius, U.; Reznitskii, L. Crystallographic and spectroscopic characterization of Fe-bearing chromo-alumino-povondraite and its relations with oxy-chromium-dravite and oxy-dravite American Mineralogist, 2013, 98, 1557-1564
9016947	CIF	Ca0.01 Cl0.956 O12 P2.913 Pb4.695	P 63/m	9.986; 9.986; 7.3378 90; 90; 120	633.694	Okudera, H. Relationships among channel typology and atomic displacements in the structures of Pb5(BO4)3Cl with B = P (pyromorphite), V (vanadinite), and As (mimetite) American Mineralogist, 2013, 98, 1573-1579
9016948	CIF	Ca0.01 Cl0.956 O12 P2.913 Pb4.695	P 63/m	9.9791; 9.9791; 7.3439 90; 90; 120	633.345	Okudera, H. Relationships among channel typology and atomic displacements in the structures of Pb5(BO4)3Cl with B = P (pyromorphite), V (vanadinite), and As (mimetite) American Mineralogist, 2013, 98, 1573-1579
9016949	CIF	Cl0.915 O12 P0.012 Pb4.51 V2.976	P 63/m	10.3231; 10.3231; 7.3399 90; 90; 120	677.394	Okudera, H. Relationships among channel typology and atomic displacements in the structures of Pb5(BO4)3Cl with B = P (pyromorphite), V (vanadinite), and As (mimetite) American Mineralogist, 2013, 98, 1573-1579
9016950	CIF	Cl0.915 O12 P0.012 Pb4.51 V2.976	P 63/m	10.3217; 10.3217; 7.3407 90; 90; 120	677.284	Okudera, H. Relationships among channel typology and atomic displacements in the structures of Pb5(BO4)3Cl with B = P (pyromorphite), V (vanadinite), and As (mimetite) American Mineralogist, 2013, 98, 1573-1579
9016951	CIF	As2.775 Cl O12 P0.036 Pb5	P 63/m	10.2382; 10.2382; 7.4502 90; 90; 120	676.31	Okudera, H. Relationships among channel typology and atomic displacements in the structures of Pb5(BO4)3Cl with B = P (pyromorphite), V (vanadinite), and As (mimetite) American Mineralogist, 2013, 98, 1573-1579
9016952	CIF	As2.775 Cl O12 P0.036 Pb5	P 63/m	10.2396; 10.2396; 7.4405 90; 90; 120	675.614	Okudera, H. Relationships among channel typology and atomic displacements in the structures of Pb5(BO4)3Cl with B = P (pyromorphite), V (vanadinite), and As (mimetite) American Mineralogist, 2013, 98, 1573-1579
9016953	CIF	As2.79 Ca5 H O13 P0.21	P 63/m	9.7199; 9.7221; 6.9651 90.077; 90.051; 119.944	570.327	Biagioni, C.; Pasero, M. The crystal structure of johnbaumite, Ca5(AsO4)3OH, the arsenate analogue of hydroxylapatite American Mineralogist, 2013, 98, 1580-1584
9016954	CIF	Ca3 O8 P2	R -3 m :H	5.2522; 5.2522; 18.69 90; 90; 120	446.501	Thompson, R. M.; Xie, X.; Zhai, S.; Downs, R. T.; Yang, H. A comparison of the Ca3(PO4)2 and CaSiO3 systems, with a new structure refinement of tuite synthesized at 15 GPa and 1300 deg C American Mineralogist, 2013, 98, 1585-1592
9016955	CIF	Al8.34 B3 Cu1.26 H3 Na0.86 O31 Si5.4	R 3 m :H	15.84; 15.84; 7.091 90; 90; 120	1540.81	Vereshchagin, O. S.; Rozhdestvenskaya, I. V.; Frank-Kamenetskaya O V; Zolotarev, A. A.; Mashkovtsev, R. I. Crystal chemistry of Cu-bearing tourmalines Note: Sample 1 American Mineralogist, 2013, 98, 1610-1616
9016956	CIF	Al7.65 B3 Ca0.03 Cu0.348 F0.06 Fe0.03 H6 Li0.75 Mn0.18 Na0.9 O30.8 Si5.7 Zn0.342	R 3 m :H	15.881; 15.881; 7.112 90; 90; 120	1553.38	Vereshchagin, O. S.; Rozhdestvenskaya, I. V.; Frank-Kamenetskaya O V; Zolotarev, A. A.; Mashkovtsev, R. I. Crystal chemistry of Cu-bearing tourmalines Note: Sample 2 American Mineralogist, 2013, 98, 1610-1616
9016957	CIF	Al7.74 B3 Ca0.09 Cu0.18 F0.06 H3 Li1.08 Mn0.3 Na0.65 O30.82 Si5.7	R 3 m :H	15.84; 15.84; 7.1028 90; 90; 120	1543.37	Vereshchagin, O. S.; Rozhdestvenskaya, I. V.; Frank-Kamenetskaya O V; Zolotarev, A. A.; Mashkovtsev, R. I. Crystal chemistry of Cu-bearing tourmalines Note: Sample 3 American Mineralogist, 2013, 98, 1610-1616
9016958	CIF	Ca0.962 Cu0.971 Fe0.002 H2 Mg0.005 O6 Pb0.073 Te0.986	P 1 21/n 1	8.1606; 5.3076; 11.4412 90; 101.549; 90	485.522	Kampf, A. R.; Mills, S. J.; Housley, R. M.; Rossman, G. R.; Marty, J.; Thorne, B. Lead-tellurium oxysalts from Otto Mountain near Baker, California: XI. Eckhardite, (Ca,Pb)Cu2+Te6+O5(H2O), a new mineral with HCP stair-step layers American Mineralogist, 2013, 98, 1617-1623
9016959	CIF	Al7.953 B3 F0.34 H3 Li1.047 Na0.561 O30.66 Si6	R 3 m :H	15.809; 15.809; 7.089 90; 90; 120	1534.35	Novak, M.; Ertl, A.; Povondra, P.; Galiova, M. V.; Rossman, G. R.; Pristacz, H.; Prem, M.; Giester, G.; Gadas, P.; Skoda, R. Darrellhenryite, Na(LiAl2)Al6(BO3)3Si6O18(OH)3O, a new mineral from the tourmaline supergroup American Mineralogist, 2013, 98, 1886-1892
9016960	CIF	Al3 H30 O28 P S2	P -1	10.341; 10.96; 11.1446 86.985; 65.727; 75.064	1110.49	Galli, E.; Brigatti, M. F.; Malferrari, D.; Sauro, F.; de Waele, J. Rossiantonite, Al3(PO4)(SO4)2(OH)2(H2O)10*4H2O, a new hydrated aluminum phosphate-sulfate mineral from Chimanta massif, Venezuela: Description and crystal structure American Mineralogist, 2013, 98, 1906-1913
9016961	CIF	Ca0.5 O2 U0.5	F m -3 m	5.3647; 5.3647; 5.3647 90; 90; 90	154.396	Galuskin, E. V.; Kusz, J.; Armbruster, T.; Galuskina, I. O.; Marzec, K.; Vapnik, Y.; Murashko, M. Vorlanite, (CaU6+)O4, from Jabel Harmun, Palestinian Autonomy, Israel American Mineralogist, 2013, 98, 1938-1942
9016962	CIF	Al0.21 Fe2.79 H6 K O14 S2	R -3 m :H	7.2913; 7.2913; 17.1744 90; 90; 120	790.719	Mills, S. J.; Nestola, F.; Kahlenberg, V.; Christy, A. G.; Hejny, C.; Redhammer, G. J. Looking for jarosite on Mars: The low-temperature crystal structure of jarosite Note: T = 297 K American Mineralogist, 2013, 98, 1966-1971
9016963	CIF	Al0.21 Fe2.79 H6 K O14 S2	R -3 m :H	7.2931; 7.2931; 17.1456 90; 90; 120	789.783	Mills, S. J.; Nestola, F.; Kahlenberg, V.; Christy, A. G.; Hejny, C.; Redhammer, G. J. Looking for jarosite on Mars: The low-temperature crystal structure of jarosite Note: T = 253 K American Mineralogist, 2013, 98, 1966-1971
9016964	CIF	Al0.21 Fe2.79 H6 K O14 S2	R -3 m :H	7.2918; 7.2918; 17.1235 90; 90; 120	788.484	Mills, S. J.; Nestola, F.; Kahlenberg, V.; Christy, A. G.; Hejny, C.; Redhammer, G. J. Looking for jarosite on Mars: The low-temperature crystal structure of jarosite Note: T = 213 K American Mineralogist, 2013, 98, 1966-1971
9016965	CIF	Al0.21 Fe2.79 H6 K O14 S2	R -3 m :H	7.2918; 7.2918; 17.1026 90; 90; 120	787.521	Mills, S. J.; Nestola, F.; Kahlenberg, V.; Christy, A. G.; Hejny, C.; Redhammer, G. J. Looking for jarosite on Mars: The low-temperature crystal structure of jarosite Note: T = 173 K American Mineralogist, 2013, 98, 1966-1971
9016966	CIF	Al0.21 Fe2.79 H6 K O14 S2	R -3 m :H	7.2907; 7.2907; 17.09 90; 90; 120	786.704	Mills, S. J.; Nestola, F.; Kahlenberg, V.; Christy, A. G.; Hejny, C.; Redhammer, G. J. Looking for jarosite on Mars: The low-temperature crystal structure of jarosite Note: T = 133 K American Mineralogist, 2013, 98, 1966-1971
9016967	CIF	Al2 Ca H9 O12.5 Si2	P 1 21/c 1	10.0214; 10.5997; 9.8327 90; 92.363; 90	1043.58	Wadoski-Romeijn E; Armbruster, T. Topotactic transformation and dehydration of the zeolite gismondine to a novel Ca feldspar structure Note: T = 25 C, Phase A, Path 1 American Mineralogist, 2013, 98, 1988-1997
9016968	CIF	Al2 Ca H6 O11 Si2	P 21 21 21	13.6801; 10.467; 13.8667 90; 90; 90	1985.57	Wadoski-Romeijn E; Armbruster, T. Topotactic transformation and dehydration of the zeolite gismondine to a novel Ca feldspar structure Note: T = 75 C, Phase B, Path 1 American Mineralogist, 2013, 98, 1988-1997
9016969	CIF	Al4 Ca1.941 H8 O20 Si4	P 21 21 21	13.9014; 8.9469; 13.9697 90; 90; 90	1737.47	Wadoski-Romeijn E; Armbruster, T. Topotactic transformation and dehydration of the zeolite gismondine to a novel Ca feldspar structure Note: T = 150 C, Phase C, Path 1 American Mineralogist, 2013, 98, 1988-1997
9016970	CIF	Al Ca0.44 H4.09 O6.045 Si	I 1 2/a 1	9.79; 10.437; 9.79 90; 90.97; 90	1000.18	Wadoski-Romeijn E; Armbruster, T. Topotactic transformation and dehydration of the zeolite gismondine to a novel Ca feldspar structure Note: T = 75 C, Path 2 American Mineralogist, 2013, 98, 1988-1997
9016971	CIF	Al2 Ca0.946 H2 O9 Si2	I 1 2/a 1	9.434; 9.044; 9.695 90; 89.04; 90	827.072	Wadoski-Romeijn E; Armbruster, T. Topotactic transformation and dehydration of the zeolite gismondine to a novel Ca feldspar structure Note: T = 225 C, Path 2 American Mineralogist, 2013, 98, 1988-1997
9016972	CIF	Al Ca0.5 O4 Si	C -1	8.152; 12.917; 7.126 93.26; 116.37; 88.72	671.192	Wadoski-Romeijn E; Armbruster, T. Topotactic transformation and dehydration of the zeolite gismondine to a novel Ca feldspar structure Note: T = 350 C, Path 2, synthesised from gismondine American Mineralogist, 2013, 98, 1988-1997
9016973	CIF	Al3.735 H31.134 K Mg0.222 Na2.484 O51.567 Si14.265	P 63/m m c	13.23574; 13.23574; 15.06516 90; 90; 120	2285.6	Cametti, G.; Pacella, A.; Mura, F.; Rossi, M.; Ballirano, P. New morphological, chemical, and structural data of woolly erionite-Na from Durkee, Oregon, U.S.A. American Mineralogist, 2013, 98, 2155-2163
9016974	CIF	C2 H4.27 Ca O6.135	I 4/m	12.3363; 12.3363; 7.3448 90; 90; 90	1117.76	Izatulina, A.; Gurzhiy, V.; Frank-Kamenetskaya O Weddellite from renal stones: Structure refinement and dependence of crystal chemical features on H2O content. Note: Sample 1 American Mineralogist, 2014, 99, 2-7
9016975	CIF	C2 H4.4 Ca O6.2	I 4/m	12.3543; 12.3543; 7.3547 90; 90; 90	1122.54	Izatulina, A.; Gurzhiy, V.; Frank-Kamenetskaya O Weddellite from renal stones: Structure refinement and dependence of crystal chemical features on H2O content. Note: Sample 2 American Mineralogist, 2014, 99, 2-7
9016976	CIF	C2 H4.38 Ca O6.19	I 4/m	12.3462; 12.3462; 7.3535 90; 90; 90	1120.88	Izatulina, A.; Gurzhiy, V.; Frank-Kamenetskaya O Weddellite from renal stones: Structure refinement and dependence of crystal chemical features on H2O content. Note: Sample 3 American Mineralogist, 2014, 99, 2-7
9016977	CIF	C2 H4.39 Ca O6.195	I 4/m	12.353; 12.353; 7.3594 90; 90; 90	1123.02	Izatulina, A.; Gurzhiy, V.; Frank-Kamenetskaya O Weddellite from renal stones: Structure refinement and dependence of crystal chemical features on H2O content. Note: Sample 4 American Mineralogist, 2014, 99, 2-7
9016978	CIF	C2 H4.4 Ca O6.2	I 4/m	12.3528; 12.3528; 7.3569 90; 90; 90	1122.6	Izatulina, A.; Gurzhiy, V.; Frank-Kamenetskaya O Weddellite from renal stones: Structure refinement and dependence of crystal chemical features on H2O content. Note: Sample 5 American Mineralogist, 2014, 99, 2-7
9016979	CIF	C2 H4.39 Ca O6.195	I 4/m	12.3542; 12.3542; 7.3604 90; 90; 90	1123.39	Izatulina, A.; Gurzhiy, V.; Frank-Kamenetskaya O Weddellite from renal stones: Structure refinement and dependence of crystal chemical features on H2O content. Note: Sample 6 American Mineralogist, 2014, 99, 2-7
9016980	CIF	C2 H4.47 Ca O6.235	I 4/m	12.3565; 12.3565; 7.3592 90; 90; 90	1123.62	Izatulina, A.; Gurzhiy, V.; Frank-Kamenetskaya O Weddellite from renal stones: Structure refinement and dependence of crystal chemical features on H2O content. Note: Sample 7 American Mineralogist, 2014, 99, 2-7
9016981	CIF	C2 H4.43 Ca O6.215	I 4/m	12.3443; 12.3443; 7.3599 90; 90; 90	1121.51	Izatulina, A.; Gurzhiy, V.; Frank-Kamenetskaya O Weddellite from renal stones: Structure refinement and dependence of crystal chemical features on H2O content. Note: Sample 8 American Mineralogist, 2014, 99, 2-7
9016982	CIF	C2 H4.46 Ca O6.23	I 4/m	12.3573; 12.3573; 7.3587 90; 90; 90	1123.69	Izatulina, A.; Gurzhiy, V.; Frank-Kamenetskaya O Weddellite from renal stones: Structure refinement and dependence of crystal chemical features on H2O content. Note: Sample 9 American Mineralogist, 2014, 99, 2-7
9016983	CIF	C2 H4.39 Ca O6.195	I 4/m	12.3558; 12.3558; 7.3601 90; 90; 90	1123.64	Izatulina, A.; Gurzhiy, V.; Frank-Kamenetskaya O Weddellite from renal stones: Structure refinement and dependence of crystal chemical features on H2O content. Note: Sample 10 American Mineralogist, 2014, 99, 2-7
9016984	CIF	C2 H4.52 Ca O6.26	I 4/m	12.3576; 12.3576; 7.3578 90; 90; 90	1123.61	Izatulina, A.; Gurzhiy, V.; Frank-Kamenetskaya O Weddellite from renal stones: Structure refinement and dependence of crystal chemical features on H2O content. Note: Sample 11 American Mineralogist, 2014, 99, 2-7
9016985	CIF	C2 H4.51 Ca O6.255	I 4/m	12.3567; 12.3567; 7.3573 90; 90; 90	1123.37	Izatulina, A.; Gurzhiy, V.; Frank-Kamenetskaya O Weddellite from renal stones: Structure refinement and dependence of crystal chemical features on H2O content. Note: Sample 12 American Mineralogist, 2014, 99, 2-7
9016986	CIF	C2 H4.52 Ca O6.26	I 4/m	12.3622; 12.3622; 7.3603 90; 90; 90	1124.83	Izatulina, A.; Gurzhiy, V.; Frank-Kamenetskaya O Weddellite from renal stones: Structure refinement and dependence of crystal chemical features on H2O content. Note: Sample 13 American Mineralogist, 2014, 99, 2-7
9016987	CIF	C2 H4.54 Ca O6.27	I 4/m	12.363; 12.363; 7.346 90; 90; 90	1122.79	Izatulina, A.; Gurzhiy, V.; Frank-Kamenetskaya O Weddellite from renal stones: Structure refinement and dependence of crystal chemical features on H2O content. Note: Sample 14 American Mineralogist, 2014, 99, 2-7
9016988	CIF	C2 H4.55 Ca O6.275	I 4/m	12.362; 12.362; 7.3574 90; 90; 90	1124.35	Izatulina, A.; Gurzhiy, V.; Frank-Kamenetskaya O Weddellite from renal stones: Structure refinement and dependence of crystal chemical features on H2O content. Note: Sample 15 American Mineralogist, 2014, 99, 2-7
9016989	CIF	C2 H4.58 Ca O6.29	I 4/m	12.3627; 12.3627; 7.3574 90; 90; 90	1124.48	Izatulina, A.; Gurzhiy, V.; Frank-Kamenetskaya O Weddellite from renal stones: Structure refinement and dependence of crystal chemical features on H2O content. Note: Sample 16 American Mineralogist, 2014, 99, 2-7
9016990	CIF	C2 H4.69 Ca O6.345	I 4/m	12.3783; 12.3783; 7.3659 90; 90; 90	1128.62	Izatulina, A.; Gurzhiy, V.; Frank-Kamenetskaya O Weddellite from renal stones: Structure refinement and dependence of crystal chemical features on H2O content. Note: Sample 17 American Mineralogist, 2014, 99, 2-7
9016991	CIF	Mg2 O4 Si	P b n m	4.5232; 9.274; 5.5467 90; 90; 90	232.674	Finkelstein, G. J.; Dera, P. K.; Jahn, S.; Oganov, A. R.; Holl, C. M.; Meng, Y.; Duffy, T. S. Phase transitions and equation of state of forsterite to 90 GPa from single-crystal X-ray diffraction and molecular modeling Note: P = 45.3 GPa American Mineralogist, 2014, 99, 35-43
9016992	CIF	Mg2 O4 Si	P 1	4.695; 9.201; 5.311 93.1; 107.264; 98.133	215.766	Finkelstein, G. J.; Dera, P. K.; Jahn, S.; Oganov, A. R.; Holl, C. M.; Meng, Y.; Duffy, T. S. Phase transitions and equation of state of forsterite to 90 GPa from single-crystal X-ray diffraction and molecular modeling Note: P = 52.4 GPa American Mineralogist, 2014, 99, 35-43
9016993	CIF	Mg2 O4 Si	C m c 21	2.64; 8.596; 9.04 90; 90; 90	205.149	Finkelstein, G. J.; Dera, P. K.; Jahn, S.; Oganov, A. R.; Holl, C. M.; Meng, Y.; Duffy, T. S. Phase transitions and equation of state of forsterite to 90 GPa from single-crystal X-ray diffraction and molecular modeling Note: P = 58.2 GPa American Mineralogist, 2014, 99, 35-43
9016994	CIF	Mg2 O4 Si	C m c 21	2.591; 8.726; 8.794 90; 90; 90	198.824	Finkelstein, G. J.; Dera, P. K.; Jahn, S.; Oganov, A. R.; Holl, C. M.; Meng, Y.; Duffy, T. S. Phase transitions and equation of state of forsterite to 90 GPa from single-crystal X-ray diffraction and molecular modeling Note: DFT Optimized Note: P = 58.2 GPa American Mineralogist, 2014, 99, 35-43
9016995	CIF	Al3.544 Ca1.303 Ce2.697 Fe0.456 H2 O22 Si5	P 1 21/m 1	8.9277; 5.6548; 17.587 90; 116.475; 90	794.757	Bonazzi, P.; Lepore, G. O.; Bindi, L.; Chopin, C.; Husdal, T. A.; Medenbach, O. Perboeite-(Ce) and alnaperboeite-(Ce), two new members of the epidote-tornebohmite polysomatic series: Chemistry, structure, dehydrogenation, and clue for a sodian epidote end-member Sample ID: ST4_11 American Mineralogist, 2014, 99, 157-169
9016996	CIF	Al3.433 Ca1.225 Ce2.775 Fe0.567 H2 O22 Si5	P 1 21/m 1	8.931; 5.6574; 17.6 90; 116.517; 90	795.713	Bonazzi, P.; Lepore, G. O.; Bindi, L.; Chopin, C.; Husdal, T. A.; Medenbach, O. Perboeite-(Ce) and alnaperboeite-(Ce), two new members of the epidote-tornebohmite polysomatic series: Chemistry, structure, dehydrogenation, and clue for a sodian epidote end-member Sample ID: ST4_09 American Mineralogist, 2014, 99, 157-169
9016997	CIF	Al3.476 Ca1.211 Ce2.789 Fe0.524 H2 O22 Si5	P 1 21/m 1	8.9205; 5.6573; 17.5715 90; 116.5; 90	793.594	Bonazzi, P.; Lepore, G. O.; Bindi, L.; Chopin, C.; Husdal, T. A.; Medenbach, O. Perboeite-(Ce) and alnaperboeite-(Ce), two new members of the epidote-tornebohmite polysomatic series: Chemistry, structure, dehydrogenation, and clue for a sodian epidote end-member Sample ID: ST3_01 American Mineralogist, 2014, 99, 157-169
9016998	CIF	Al3.395 Ca1.21 Ce2.79 Fe0.605 H2 O22 Si5	P 1 21/m 1	8.9546; 5.6675; 17.652 90; 116.677; 90	800.482	Bonazzi, P.; Lepore, G. O.; Bindi, L.; Chopin, C.; Husdal, T. A.; Medenbach, O. Perboeite-(Ce) and alnaperboeite-(Ce), two new members of the epidote-tornebohmite polysomatic series: Chemistry, structure, dehydrogenation, and clue for a sodian epidote end-member Sample ID: NE_01 American Mineralogist, 2014, 99, 157-169
9016999	CIF	Al3.418 Ca1.146 Ce2.854 Fe0.582 H2 O22 Si5	P 1 21/m 1	8.9222; 5.665; 17.569 90; 116.47; 90	794.92	Bonazzi, P.; Lepore, G. O.; Bindi, L.; Chopin, C.; Husdal, T. A.; Medenbach, O. Perboeite-(Ce) and alnaperboeite-(Ce), two new members of the epidote-tornebohmite polysomatic series: Chemistry, structure, dehydrogenation, and clue for a sodian epidote end-member Sample ID: ST4_10 American Mineralogist, 2014, 99, 157-169
9017000	CIF	Al3.374 Ca1.108 Ce2.892 Fe0.626 H2 O22 Si5	P 1 21/m 1	8.9165; 5.6754; 17.5253 90; 116.321; 90	794.916	Bonazzi, P.; Lepore, G. O.; Bindi, L.; Chopin, C.; Husdal, T. A.; Medenbach, O. Perboeite-(Ce) and alnaperboeite-(Ce), two new members of the epidote-tornebohmite polysomatic series: Chemistry, structure, dehydrogenation, and clue for a sodian epidote end-member Sample ID: ST4_02 American Mineralogist, 2014, 99, 157-169
9017001	CIF	Al3.283 Ca1.119 Ce2.881 Fe0.717 H2 O22 Si5	P 1 21/m 1	8.9327; 5.6817; 17.5807 90; 116.465; 90	798.768	Bonazzi, P.; Lepore, G. O.; Bindi, L.; Chopin, C.; Husdal, T. A.; Medenbach, O. Perboeite-(Ce) and alnaperboeite-(Ce), two new members of the epidote-tornebohmite polysomatic series: Chemistry, structure, dehydrogenation, and clue for a sodian epidote end-member Sample ID: ST2_01 American Mineralogist, 2014, 99, 157-169
9017002	CIF	Al3.23 Ca1.11 Ce2.89 Fe0.77 H2 O22 Si5	P 1 21/m 1	8.9313; 5.6608; 17.549 90; 116.396; 90	794.746	Bonazzi, P.; Lepore, G. O.; Bindi, L.; Chopin, C.; Husdal, T. A.; Medenbach, O. Perboeite-(Ce) and alnaperboeite-(Ce), two new members of the epidote-tornebohmite polysomatic series: Chemistry, structure, dehydrogenation, and clue for a sodian epidote end-member Sample ID: ST2_03 American Mineralogist, 2014, 99, 157-169
9017003	CIF	Al3.221 Ca1.072 Ce2.928 Fe0.779 H2 O22 Si5	P 1 21/m 1	8.911; 5.6866; 17.5252 90; 116.3; 90	796.133	Bonazzi, P.; Lepore, G. O.; Bindi, L.; Chopin, C.; Husdal, T. A.; Medenbach, O. Perboeite-(Ce) and alnaperboeite-(Ce), two new members of the epidote-tornebohmite polysomatic series: Chemistry, structure, dehydrogenation, and clue for a sodian epidote end-member Sample ID: HU_02 American Mineralogist, 2014, 99, 157-169
9017004	CIF	Al3.197 Ca1.079 Ce2.921 Fe0.803 H2 O22 Si5	P 1 21/m 1	8.8996; 5.6759; 17.5154 90; 116.221; 90	793.715	Bonazzi, P.; Lepore, G. O.; Bindi, L.; Chopin, C.; Husdal, T. A.; Medenbach, O. Perboeite-(Ce) and alnaperboeite-(Ce), two new members of the epidote-tornebohmite polysomatic series: Chemistry, structure, dehydrogenation, and clue for a sodian epidote end-member Sample ID: ST2_04 American Mineralogist, 2014, 99, 157-169
9017005	CIF	Al3.15 Ca1.092 Ce2.908 Fe0.85 H2 O22 Si5	P 1 21/m 1	8.895; 5.6827; 17.5044 90; 116.24; 90	793.626	Bonazzi, P.; Lepore, G. O.; Bindi, L.; Chopin, C.; Husdal, T. A.; Medenbach, O. Perboeite-(Ce) and alnaperboeite-(Ce), two new members of the epidote-tornebohmite polysomatic series: Chemistry, structure, dehydrogenation, and clue for a sodian epidote end-member Sample ID: HU_01 American Mineralogist, 2014, 99, 157-169
9017006	CIF	Al3.252 Ca1.105 Ce2.895 Fe0.748 H2 O22 Si5	P 1 21/m 1	8.9039; 5.6785; 17.5039 90; 116.301; 90	793.394	Bonazzi, P.; Lepore, G. O.; Bindi, L.; Chopin, C.; Husdal, T. A.; Medenbach, O. Perboeite-(Ce) and alnaperboeite-(Ce), two new members of the epidote-tornebohmite polysomatic series: Chemistry, structure, dehydrogenation, and clue for a sodian epidote end-member Sample ID: ST2_02 American Mineralogist, 2014, 99, 157-169
9017007	CIF	Al3.273 Ca1.115 Ce2.885 Fe0.727 H2 O22 Si5	P 1 21/m 1	8.9044; 5.665; 17.5261 90; 116.399; 90	791.885	Bonazzi, P.; Lepore, G. O.; Bindi, L.; Chopin, C.; Husdal, T. A.; Medenbach, O. Perboeite-(Ce) and alnaperboeite-(Ce), two new members of the epidote-tornebohmite polysomatic series: Chemistry, structure, dehydrogenation, and clue for a sodian epidote end-member Sample ID: ST2_02-350, annealed for 48 hours at 350 C American Mineralogist, 2014, 99, 157-169
9017008	CIF	Al3.229 Ca1.098 Ce2.902 Fe0.771 H2 O22 Si5	P 1 21/m 1	8.9002; 5.6304; 17.7324 90; 116.71; 90	793.781	Bonazzi, P.; Lepore, G. O.; Bindi, L.; Chopin, C.; Husdal, T. A.; Medenbach, O. Perboeite-(Ce) and alnaperboeite-(Ce), two new members of the epidote-tornebohmite polysomatic series: Chemistry, structure, dehydrogenation, and clue for a sodian epidote end-member Sample ID: ST2_02-450, annealed for 48 hours at 450 C American Mineralogist, 2014, 99, 157-169
9017009	CIF	Al3.233 Ca1.11 Ce2.89 Fe0.767 H2 O22 Si5	P 1 21/m 1	8.9031; 5.629; 17.7392 90; 116.752; 90	793.853	Bonazzi, P.; Lepore, G. O.; Bindi, L.; Chopin, C.; Husdal, T. A.; Medenbach, O. Perboeite-(Ce) and alnaperboeite-(Ce), two new members of the epidote-tornebohmite polysomatic series: Chemistry, structure, dehydrogenation, and clue for a sodian epidote end-member Sample ID: ST2_02-550, annealed for 48 hours at 550 C American Mineralogist, 2014, 99, 157-169
9017010	CIF	Al3.234 Ca1.098 Ce2.902 Fe0.766 H2 O22 Si5	P 1 21/m 1	8.8979; 5.6235; 17.731 90; 116.815; 90	791.808	Bonazzi, P.; Lepore, G. O.; Bindi, L.; Chopin, C.; Husdal, T. A.; Medenbach, O. Perboeite-(Ce) and alnaperboeite-(Ce), two new members of the epidote-tornebohmite polysomatic series: Chemistry, structure, dehydrogenation, and clue for a sodian epidote end-member Sample ID: ST2_02-650, annealed for 48 hours at 650 C American Mineralogist, 2014, 99, 157-169
9017011	CIF	Al3.232 Ca1.091 Ce2.909 Fe0.768 H2 O22 Si5	P 1 21/m 1	8.8936; 5.6189; 17.755 90; 116.952; 90	790.889	Bonazzi, P.; Lepore, G. O.; Bindi, L.; Chopin, C.; Husdal, T. A.; Medenbach, O. Perboeite-(Ce) and alnaperboeite-(Ce), two new members of the epidote-tornebohmite polysomatic series: Chemistry, structure, dehydrogenation, and clue for a sodian epidote end-member Sample ID: ST2_02-750, annealed for 48 hours at 750 C American Mineralogist, 2014, 99, 157-169
9017012	CIF	O2 Pb	P n a m	5.493; 6.52; 3.453 90; 90; 90	123.667	Grocholski, B.; Shim, S. H.; Cottrell, E.; Prakapenka, V. B. Crystal structure and compressibility of lead dioxide up to 140 GPa Note: P = 23.5 GPa American Mineralogist, 2014, 99, 170-177
9017013	CIF	O2 Pb	P n a m	5.464; 6.468; 3.415 90; 90; 90	120.69	Grocholski, B.; Shim, S. H.; Cottrell, E.; Prakapenka, V. B. Crystal structure and compressibility of lead dioxide up to 140 GPa Note: P = 29.0 GPa American Mineralogist, 2014, 99, 170-177
9017014	CIF	O2 Pb	P n a m	5.426; 6.389; 3.362 90; 90; 90	116.549	Grocholski, B.; Shim, S. H.; Cottrell, E.; Prakapenka, V. B. Crystal structure and compressibility of lead dioxide up to 140 GPa Note: P = 39.0 GPa American Mineralogist, 2014, 99, 170-177
9017015	CIF	O2 Pb	P n a m	5.343; 6.29; 3.295 90; 90; 90	110.737	Grocholski, B.; Shim, S. H.; Cottrell, E.; Prakapenka, V. B. Crystal structure and compressibility of lead dioxide up to 140 GPa Note: P = 62.7 GPa American Mineralogist, 2014, 99, 170-177
9017016	CIF	O2 Pb	P n a m	5.298; 6.239; 3.269 90; 90; 90	108.054	Grocholski, B.; Shim, S. H.; Cottrell, E.; Prakapenka, V. B. Crystal structure and compressibility of lead dioxide up to 140 GPa Note: P = 75.1 GPa American Mineralogist, 2014, 99, 170-177
9017017	CIF	O2 Pb	P n a m	5.246; 6.194; 3.228 90; 90; 90	104.89	Grocholski, B.; Shim, S. H.; Cottrell, E.; Prakapenka, V. B. Crystal structure and compressibility of lead dioxide up to 140 GPa Note: P = 93 GPa American Mineralogist, 2014, 99, 170-177
9017018	CIF	O2 Pb	P n a m	5.215; 6.167; 3.211 90; 90; 90	103.269	Grocholski, B.; Shim, S. H.; Cottrell, E.; Prakapenka, V. B. Crystal structure and compressibility of lead dioxide up to 140 GPa Note: P = 105 GPa American Mineralogist, 2014, 99, 170-177
9017019	CIF	O2 Pb	P n a m	5.128; 6.108; 3.183 90; 90; 90	99.697	Grocholski, B.; Shim, S. H.; Cottrell, E.; Prakapenka, V. B. Crystal structure and compressibility of lead dioxide up to 140 GPa Note: P = 120 GPa American Mineralogist, 2014, 99, 170-177
9017020	CIF	O2 Pb	P n a m	5.083; 6.046; 3.152 90; 90; 90	96.867	Grocholski, B.; Shim, S. H.; Cottrell, E.; Prakapenka, V. B. Crystal structure and compressibility of lead dioxide up to 140 GPa Note: P = 140 GPa American Mineralogist, 2014, 99, 170-177
9017021	CIF	He O2 Si	P 1 21/c 1	8.062; 4.797; 9.491 90; 120.43; 90	316.488	Matsui, M.; Sato, T.; Funamori, N. Crystal structures and stabilities of cristobalite-helium phases at high pressures Note: P = 10 GPa American Mineralogist, 2014, 99, 184-189
9017022	CIF	He O2 Si	R -3 c :R	9.08; 9.08; 9.08 31.809; 31.809; 31.809	184.735	Matsui, M.; Sato, T.; Funamori, N. Crystal structures and stabilities of cristobalite-helium phases at high pressures Note: P = 4 GPa American Mineralogist, 2014, 99, 184-189
9017023	CIF	Al4.14 B3 Ca0.207 Cr0.18 H3 Mg2.4 Na0.793 O31 Si6 V2.253	R 3 m :H	16.0273; 16.0273; 7.2833 90; 90; 120	1620.24	Bosi, F.; Skogby, H.; Reznitskii, L.; Halenius, U. Vanadio-oxy-dravite, NaV3(Al4Mg2)(Si6O18)(BO3)3(OH)3O, a new mineral species of the tourmaline supergroup American Mineralogist, 2014, 99, 218-224
9017024	CIF	Al0.12 Ca0.55 Ce0.01 Fe1.41 K0.04 La0.02 Mg0.05 Mn0.26 Na2.45 O24 Si8 Sr3.84 Ti0.01 Zn0.16	P 1 21/c 1	5.21381; 7.9143; 26.0888 90; 90.3556; 90	1076.5	Chakhmourdian, A. R.; Cooper, M. A.; Ball, N.; Reguir, E. P.; Medici, L.; Abdu, Y. A.; Antonov, A. A. Vladykinite, Na3Sr4(Fe2+Fe3+)Si8O24: A new complex sheet silicate from peralkaline rocks of the Murun complex, eastern Siberia, Russia American Mineralogist, 2014, 99, 235-241
9017025	CIF	Fe2.134 O4 Ti0.866	F d -3 m :2	8.5139; 8.5139; 8.5139 90; 90; 90	617.143	Gatta, G. D.; Bosi, F.; McIntyre, G. J.; Halenius, U. Static positional disorder in ulvospinel: A single-crystal neutron diffraction study. Note:Crystal 1 American Mineralogist, 2014, 99, 255-260
9017026	CIF	Fe2.111 O4 Ti0.889	F d -3 m :2	8.5139; 8.5139; 8.5139 90; 90; 90	617.143	Gatta, G. D.; Bosi, F.; McIntyre, G. J.; Halenius, U. Static positional disorder in ulvospinel: A single-crystal neutron diffraction study. Note:Crystal 2 American Mineralogist, 2014, 99, 255-260
9017027	CIF	Fe2.134 O4 Ti0.864	F d -3 m :2	8.5139; 8.5139; 8.5139 90; 90; 90	617.143	Gatta, G. D.; Bosi, F.; McIntyre, G. J.; Halenius, U. Static positional disorder in ulvospinel: A single-crystal neutron diffraction study. Note:Refinement with Ti at .49, .49, .49 American Mineralogist, 2014, 99, 255-260
9017028	CIF	Al1.94 Fe0.01 Mg0.38 Mn0.15 O4 Zn0.52	F d -3 m :2	8.1123; 8.1123; 8.1123 90; 90; 90	533.866	Halenius, U.; Bosi, F. Color of Mn-bearing gahnite: A first example of electronic transitions in heterovalent exchange coupled IVMn2±VIMn3+ pairs in minerals. American Mineralogist, 2014, 99, 261-266
9017029	CIF	Al1.758 Cr0.242 Fe0.242 Mg0.758 O4	F d -3 m :2	8.1334; 8.1334; 8.1334 90; 90; 90	538.042	Lenaz, D.; Youbi, N.; Min, A. D.; Boumehdi, M. A.; Abbou, M. B. Low intra-crystalline closure temperatures of Cr-bearing spinels from the mantle xenoliths of the Middle AtlasNeogene-Quaternary Volcanic Field (Morocco):Mineralogical evidence of a cooler mantle beneath the West African Craton. Note:Sample MAR-BI2 American Mineralogist, 2014, 99, 267-275
9017030	CIF	Al1.6 Cr0.4 Fe0.25 Mg0.75 O4	F d -3 m :2	8.1454; 8.1454; 8.1454 90; 90; 90	540.427	Lenaz, D.; Youbi, N.; Min, A. D.; Boumehdi, M. A.; Abbou, M. B. Low intra-crystalline closure temperatures of Cr-bearing spinels from the mantle xenoliths of the Middle AtlasNeogene-Quaternary Volcanic Field (Morocco):Mineralogical evidence of a cooler mantle beneath the West African Craton. Note:Sample MAR-BI4 American Mineralogist, 2014, 99, 267-275
9017031	CIF	Al1.206 Cr0.794 Fe0.287 Mg0.714 O4	F d -3 m :2	8.2021; 8.2021; 8.2021 90; 90; 90	551.792	Lenaz, D.; Youbi, N.; Min, A. D.; Boumehdi, M. A.; Abbou, M. B. Low intra-crystalline closure temperatures of Cr-bearing spinels from the mantle xenoliths of the Middle AtlasNeogene-Quaternary Volcanic Field (Morocco):Mineralogical evidence of a cooler mantle beneath the West African Craton. Note:Sample MAR-BI16 American Mineralogist, 2014, 99, 267-275
9017032	CIF	Al1.38 Cr0.62 Fe0.306 Mg0.694 O4	F d -3 m :2	8.1727; 8.1727; 8.1727 90; 90; 90	545.879	Lenaz, D.; Youbi, N.; Min, A. D.; Boumehdi, M. A.; Abbou, M. B. Low intra-crystalline closure temperatures of Cr-bearing spinels from the mantle xenoliths of the Middle AtlasNeogene-Quaternary Volcanic Field (Morocco):Mineralogical evidence of a cooler mantle beneath the West African Craton. Note:Sample MAR-BI24 American Mineralogist, 2014, 99, 267-275
9017033	CIF	Al1.718 Cr0.282 Fe0.24 Mg0.76 O4	F d -3 m :2	8.1339; 8.1339; 8.1339 90; 90; 90	538.142	Lenaz, D.; Youbi, N.; Min, A. D.; Boumehdi, M. A.; Abbou, M. B. Low intra-crystalline closure temperatures of Cr-bearing spinels from the mantle xenoliths of the Middle AtlasNeogene-Quaternary Volcanic Field (Morocco): Mineralogical evidence of a cooler mantle beneath the West African Craton. Note:Sample MAR-TF6 American Mineralogist, 2014, 99, 267-275
9017034	CIF	Al1.76 Cr0.24 Fe0.236 Mg0.764 O4	F d -3 m :2	8.1351; 8.1351; 8.1351 90; 90; 90	538.38	Lenaz, D.; Youbi, N.; Min, A. D.; Boumehdi, M. A.; Abbou, M. B. Low intra-crystalline closure temperatures of Cr-bearing spinels from the mantle xenoliths of the Middle AtlasNeogene-Quaternary Volcanic Field (Morocco):Mineralogical evidence of a cooler mantle beneath the West African Craton. Note:Sample MAR-TF7 American Mineralogist, 2014, 99, 267-275
9017035	CIF	Al1.42 Cr0.58 Fe0.3 Mg0.7 O4	F d -3 m :2	8.1704; 8.1704; 8.1704 90; 90; 90	545.419	Lenaz, D.; Youbi, N.; Min, A. D.; Boumehdi, M. A.; Abbou, M. B. Low intra-crystalline closure temperatures of Cr-bearing spinels from the mantle xenoliths of the Middle AtlasNeogene-Quaternary Volcanic Field (Morocco):Mineralogical evidence of a cooler mantle beneath the West African Craton. Note:Sample MAR-TF8 American Mineralogist, 2014, 99, 267-275
9017036	CIF	Al1.6 Cr0.4 Fe0.268 Mg0.732 O4	F d -3 m :2	8.1391; 8.1391; 8.1391 90; 90; 90	539.174	Lenaz, D.; Youbi, N.; Min, A. D.; Boumehdi, M. A.; Abbou, M. B. Low intra-crystalline closure temperatures of Cr-bearing spinels from the mantle xenoliths of the Middle AtlasNeogene-Quaternary Volcanic Field (Morocco):Mineralogical evidence of a cooler mantle beneath the West African Craton. Note:Sample MAR-TF21 American Mineralogist, 2014, 99, 267-275
9017037	CIF	Al1.612 Cr0.388 Fe0.234 Mg0.766 O4	F d -3 m :2	8.1499; 8.1499; 8.1499 90; 90; 90	541.323	Lenaz, D.; Youbi, N.; Min, A. D.; Boumehdi, M. A.; Abbou, M. B. Low intra-crystalline closure temperatures of Cr-bearing spinels from the mantle xenoliths of the Middle AtlasNeogene-Quaternary Volcanic Field (Morocco):Mineralogical evidence of a cooler mantle beneath the West African Craton. Note:Sample MAR-TF28 American Mineralogist, 2014, 99, 267-275
9017038	CIF	C H O4.926 Pb0.926 U0.5	P m m n :1	4.977; 9.3869; 8.9597 90; 90; 90	418.585	Plasil, J.; Palatinus, L.; Rohlicek, J.; Houdkovaq, L.; Klementova, M.; Golias, V.; Skacha, P. Crystal structure of lead uranyl carbonate mineral widenmannite: Precession electron-diffraction and synchrotron powder-diffraction study Note: data collected at synchrotron American Mineralogist, 2014, 99, 276-282
9017039	CIF	C H O4.824 Pb0.824 U0.5	P m m n :1	4.977; 9.3869; 8.9597 90; 90; 90	418.585	Plasil, J.; Palatinus, L.; Rohlicek, J.; Houdkovaq, L.; Klementova, M.; Golias, V.; Skacha, P. Crystal structure of lead uranyl carbonate mineral widenmannite: Precession electron-diffraction and synchrotron powder-diffraction study Note: data collected by electron diffraction American Mineralogist, 2014, 99, 276-282
9017040	CIF	Ca5 Cl0.332 F0.773 O12 P3	P 63/m	9.5104; 9.5104; 6.8311 90; 90; 120	535.08	Hughes, J. M.; Nekvasil, H.; Ustunisik, G.; Lindsley, D. H.; Coraor, A. E.; Vaughn, J.; Phillips, B. L.; McCubbin, F. M.; Woerner, W. R. Solid solution in the fluorapatite-chlorapatite binary system: High-precision crystal structure refinements of synthetic F-Cl apatite. Note: Sample HNF5CL5 American Mineralogist, 2014, 99, 369-376
9017041	CIF	Ca5 Cl0.343 F0.766 O12 P3	P 63/m	9.5101; 9.5101; 6.83 90; 90; 120	534.96	Hughes, J. M.; Nekvasil, H.; Ustunisik, G.; Lindsley, D. H.; Coraor, A. E.; Vaughn, J.; Phillips, B. L.; McCubbin, F. M.; Woerner, W. R. Solid solution in the fluorapatite-chlorapatite binary system: High-precision crystal structure refinements of synthetic F-Cl apatite. Note: Sample HNF5CL5-8 American Mineralogist, 2014, 99, 369-376
9017042	CIF	Ca5 Cl0.336 F0.764 O12 P3	P 63/m	9.51; 9.51; 6.8289 90; 90; 120	534.863	Hughes, J. M.; Nekvasil, H.; Ustunisik, G.; Lindsley, D. H.; Coraor, A. E.; Vaughn, J.; Phillips, B. L.; McCubbin, F. M.; Woerner, W. R. Solid solution in the fluorapatite-chlorapatite binary system: High-precision crystal structure refinements of synthetic F-Cl apatite. Note: Sample HNF5CL5-9 American Mineralogist, 2014, 99, 369-376
9017043	CIF	Ca5 Cl0.332 F0.763 O12 P3	P 63/m	9.5084; 9.5084; 6.8293 90; 90; 120	534.714	Hughes, J. M.; Nekvasil, H.; Ustunisik, G.; Lindsley, D. H.; Coraor, A. E.; Vaughn, J.; Phillips, B. L.; McCubbin, F. M.; Woerner, W. R. Solid solution in the fluorapatite-chlorapatite binary system: High-precision crystal structure refinements of synthetic F-Cl apatite. Note: HNF5CL5-10 American Mineralogist, 2014, 99, 369-376
9017044	CIF	Ba0.01 Be2 Ca0.05 O8 P2 Sr0.87	P 1 21/c 1	7.997; 8.979; 8.42 90; 90.18; 90	604.596	Rao, C.; Wang, R.; Hatert, F.; Gu, X.; Ottolini, L.; Hu, H.; Dong, C.; Bo, F. D.; Baijot, M. Strontiohurlbutite, SrBe2(PO4)2, a new mineral from Nanping No. 31 pegmatite, Fujian Province, Southeastern China American Mineralogist, 2014, 99, 494-499
9017045	CIF	Cu6.55 H4 K Li Mg0.45 O26 Si8	P c n b	19.046; 20.377; 5.2497 90; 90; 90	2037.41	Yang, H.; Downs, R. T.; Evans, S. H.; Pinch, W. W. Lavinskyite, K(LiCu)Cu6(Si4O11)2(OH)4, isotypic with plancheite, a new mineral from the Wessels mine, Kalahari Manganese Fields, South Africa American Mineralogist, 2014, 99, 525-530
9017046	CIF	H8 K4.916 O33 S4.04 U4 V0.87	P 4/n :1	14.9704; 14.9704; 6.817 90; 90; 90	1527.78	Plasil, J.; Veselovsky, F.; Hlousek, J.; Skoda, R.; Novak, M.; Sejkora, J.; Cejka, J.; Skacha, P.; Kasatkin, A. V. Mathesiusite, K5(UO2)4(SO4)4(VO5)(H2O)4, a new uranyl vanadate-sulfate from Jachymov, Czech Republic American Mineralogist, 2014, 99, 625-632
9017047	CIF	B1.1 N0.9	F -4 3 m	3.61; 3.61; 3.61 90; 90; 90	47.046	Dobrzhinetskaya, L. F.; Wirth, R.; Yang, J.; Green, H. W.; Hutcheon, I. D.; Weber, P. K.; Grew, E. S. Qingsongite, natural cubic boron nitride: The first boron mineral from the Earth's mantle American Mineralogist, 2014, 99, 764-772
9017048	CIF	Al2.97 As0.03 Ca0.13 F1.68 Fe0.03 H6.32 Na0.87 O12.32 P1.97	P 41 21 2	7.077; 7.077; 19.227 90; 90; 90	962.964	Kampf, A. R.; Adams, P. M.; Housley, R. M.; Rossman, G. R. Fluorowardite, NaAl3(PO4)2(OH)2F2*2H2O, the fluorine analog of wardite from the Silver Coin mine, Valmy, Nevada American Mineralogist, 2014, 99, 804-810
9017049	CIF	Fe1.32 H6 Mn1.68 O11 P2	P b n a	9.48871; 10.11494; 8.70624 90; 90; 90	835.605	Chukanov, N. V.; Scholz, R.; Zubkova, N. V.; Pekov, I. V.; Belakovskiy, D. I.; Van, K. V.; Lagoeiro, L.; Graca, L. M.; Krambrock, K.; de Oliveire, L. C. A.; Menezes, L. A. D.; Chaves, M. L. S. C.; Pushcharovsky, D. Y. Correianevesite, Fe2+Mn2+2(PO4)2*3H2O, a new reddingite-group mineral from the Cigana mine, Conselheiro Pena, Minas Gerais, Brazil American Mineralogist, 2014, 99, 811-816
9017050	CIF	O57 Pb21 Si18	P 63/m	9.9244; 9.9244; 34.2357 90; 90; 120	2920.24	Siidra, O. I.; Zenko, D. S.; Krivovichev, S. V. Structural complexity of lead silicates: Crystal structure of Pb21[Si7O22]2[Si4O13] and its comparison to hyttsjoite American Mineralogist, 2014, 99, 817-823
9017051	CIF	F3 Mg Na	P b n m	5.32517; 5.47795; 7.62732 90; 90; 90	222.497	Knight, K. S. A high-resolution powder neutron diffraction study of the crystal structure of neighborite (NaMgF3) between 9 and 440 K Note: T = 9 K American Mineralogist, 2014, 99, 824-838
9017052	CIF	Fe1.929 Mg0.135 O4 Ti0.94	F d -3 m :2	8.5271; 8.5271; 8.5271 90; 90; 90	620.018	Bosi, F.; Halenius, U.; Skogby, H. Crystal chemistry of the ulvospinel-qandilite series. Note: sample T1 American Mineralogist, 2014, 99, 847-851
9017053	CIF	Fe1.768 Mg0.29 O4 Ti0.94	F d -3 m :2	8.5184; 8.5184; 8.5184 90; 90; 90	618.122	Bosi, F.; Halenius, U.; Skogby, H. Crystal chemistry of the ulvospinel-qandilite series. Note: sample T2 American Mineralogist, 2014, 99, 847-851
9017054	CIF	Fe1.511 Mg0.531 O4 Ti0.96	F d -3 m :2	8.5104; 8.5104; 8.5104 90; 90; 90	616.382	Bosi, F.; Halenius, U.; Skogby, H. Crystal chemistry of the ulvospinel-qandilite series. Note: sample T3 American Mineralogist, 2014, 99, 847-851
9017055	CIF	Fe1.228 Mg0.79 O4 Ti0.98	F d -3 m :2	8.5021; 8.5021; 8.5021 90; 90; 90	614.58	Bosi, F.; Halenius, U.; Skogby, H. Crystal chemistry of the ulvospinel-qandilite series. Note: sample T4 American Mineralogist, 2014, 99, 847-851
9017056	CIF	Fe1.106 Mg0.918 O4 Ti0.98	F d -3 m :2	8.4946; 8.4946; 8.4946 90; 90; 90	612.955	Bosi, F.; Halenius, U.; Skogby, H. Crystal chemistry of the ulvospinel-qandilite series. Note: sample T5 American Mineralogist, 2014, 99, 847-851
9017057	CIF	Cr0.138 Mg0.931 O3 Si0.931	P b n m	4.8213; 4.9368; 6.9132 90; 90; 90	164.547	Bindi, L.; Sirotkina, E. A.; Bobrov, A. V.; Irifune, T. Chromium solubility in perovskite at high pressure: The structure of (Mg1-xCrx)(Si1-xCrx)O3 (with x = 0.07) synthesized at 23 GPa and 1600 C American Mineralogist, 2014, 99, 866-869
9017058	CIF	Al0.015 Ca Cr0.011 Fe1.957 Mg0.003 O4 Ti0.004	P n m a	9.2183; 3.0175; 10.6934 90; 90; 90	297.45	Galuskina, I. O.; Vapnik, Y.; Lazic, B.; Armbruster, T.; Murashko, M.; Galuskin, E. V. Harmunite CaFe2O4: A new mineral from the Jabel Harmun, West Bank, Palestinian Autonomy, Israel American Mineralogist, 2014, 99, 965-975
9017059	CIF	Ca0.835 Fe0.86 H48 Mg2.24 Mn1.02 O58 Sb0.225 W8.72 Zn0.6	P -1	11.986; 13.2073; 17.6891 69.69; 85.364; 64.875	2370.35	Kampf, A. R.; Hughes, J. M.; Nash, B. P.; Wright, S. E.; Rossman, G. R.; Marty, J. Ophirite, Ca2Mg4[Zn2Mn3+2(H2O)2(Fe3+W9O34)2]*46H2O, a new mineral with a heteropolytungstate tri-lacunary Keggin anion American Mineralogist, 2014, 99, 1045-1051
9017060	CIF	Ag0.002 Bi3.95 Cd0.018 Cu0.085 Fe0.65 Mn1.102 Pb0.142 S8 Sb0.036 Se0.024 Te0.014	C 1 2/m 1	12.677; 3.914; 14.758 90; 115.31; 90	661.968	Ciobanu, C. L.; Brugger, J.; Cook, N. J.; Mills, S. J.; Elliott, P.; Damian, G.; Damian, F. Gratianite, MnBi2S4, a new mineral from the Baita Bihor skarn, Romania American Mineralogist, 2014, 99, 1163-1170
9017061	CIF	Ca0.1 Li0.725 Mg0.19 Mn3.71 Na0.275 O15 Si5	P -1	7.5391; 11.7475; 6.7137 93.024; 95.147; 106.266	566.611	Nagashima, M.; Armbruster, T.; Kolitsch, U.; Pettke, T. The relation between Li <-> Na substitution and hydrogen bonding in five-periodic single-chain silicates nambulite and marsturite: A single-crystal X-ray study American Mineralogist, 2014, 99, 1462-1470
9017062	CIF	Ca0.05 H Li0.821 Mg0.26 Mn3.69 Na0.179 O15 Si5	P -1	7.5372; 11.7267; 6.7078 93.057; 95.147; 106.24	565.017	Nagashima, M.; Armbruster, T.; Kolitsch, U.; Pettke, T. The relation between Li <-> Na substitution and hydrogen bonding in five-periodic single-chain silicates nambulite and marsturite: A single-crystal X-ray study American Mineralogist, 2014, 99, 1462-1470
9017063	CIF	Ca0.212 H Li0.276 Mg0.22 Mn3.568 Na0.724 O15 Si5	P -1	7.6115; 11.734; 6.7324 92.876; 94.846; 106.65	572.278	Nagashima, M.; Armbruster, T.; Kolitsch, U.; Pettke, T. The relation between Li <-> Na substitution and hydrogen bonding in five-periodic single-chain silicates nambulite and marsturite: A single-crystal X-ray study American Mineralogist, 2014, 99, 1462-1470
9017064	CIF	Ca0.912 Fe0.11 H Li0.062 Mg0.07 Mn2.908 Na0.938 O15 Si5	P -1	7.697; 11.72; 6.771 92.4; 94.41; 106.83	581.593	Nagashima, M.; Armbruster, T.; Kolitsch, U.; Pettke, T. The relation between Li <-> Na substitution and hydrogen bonding in five-periodic single-chain silicates nambulite and marsturite: A single-crystal X-ray study American Mineralogist, 2014, 99, 1462-1470
9017065	CIF	Li9 Mn18 O36	F d d d :2	24.764; 24.862; 8.1995 90; 90; 90	5048.29	Ishizawa, N.; Tateishi, K.; Oishi, S.; Kishimoto, S. Bond-length fluctuation in the orthorhombic 3x3x1 superstructure of LiMn2O4 Note: T = 230 K American Mineralogist, 2014, 99, 1528-1536
9017066	CIF	Li Mn2 O4	F d -3 m :2	8.2513; 8.2513; 8.2513 90; 90; 90	561.781	Ishizawa, N.; Tateishi, K.; Oishi, S.; Kishimoto, S. Bond-length fluctuation in the orthorhombic 3x3x1 superstructure of LiMn2O4 Note: T = 320 K American Mineralogist, 2014, 99, 1528-1536
9017067	CIF	Al2.455 Mg0.79 Na0.33 O6 Si0.63	P 63/m	8.7225; 8.7225; 2.7664 90; 90; 120	182.275	Pamato, M. G.; Kurnosov, A.; Ballaran, T. B.; Trots, D. M.; Caracas, R.; Frost, D. J. Hexagonal Na0.41[Na0.125Mg0.79Al0.085]2[Al0.79Si0.21]6O12 (NAL phase): Crystal structure refinement and elasticity American Mineralogist, 2014, 99, 1562-1569
9017068	CIF	Ca0.056 H Mn1.944 Na O9 Si3	P -1	7.6844; 6.8913; 6.73493 90.4576; 94.0805; 102.777	346.835	Williams, E. R.; Weller, M. T. A variable-temperature neutron diffraction study of serandite: A Mn-silicate framework with a very strong, two-proton site, hydrogen bond Note: T = 4 K American Mineralogist, 2014, 99, 1755-1760
9017069	CIF	Ca0.053 H Mn1.947 Na O9 Si3	P -1	7.6888; 6.8934; 6.73781 90.4467; 94.0672; 102.777	347.296	Williams, E. R.; Weller, M. T. A variable-temperature neutron diffraction study of serandite: A Mn-silicate framework with a very strong, two-proton site, hydrogen bond Note: T = 150 K American Mineralogist, 2014, 99, 1755-1760
9017070	CIF	Ca0.058 H Mn1.942 Na O9 Si3	P -1	7.70244; 6.9003; 6.7447 90.4159; 94.0442; 102.801	348.599	Williams, E. R.; Weller, M. T. A variable-temperature neutron diffraction study of serandite: A Mn-silicate framework with a very strong, two-proton site, hydrogen bond Note: T = 298 K American Mineralogist, 2014, 99, 1755-1760
9017071	CIF	Ca0.074 H Mn1.926 Na O9 Si3	P -1	7.7283; 6.9174; 6.7608 90.362; 94.016; 102.822	351.464	Williams, E. R.; Weller, M. T. A variable-temperature neutron diffraction study of serandite: A Mn-silicate framework with a very strong, two-proton site, hydrogen bond Note: T = 575 K American Mineralogist, 2014, 99, 1755-1760
9017072	CIF	Ca0.074 H Mn1.926 Na O9 Si3	P -1	7.7513; 6.9384; 6.7761 90.307; 94.019; 102.858	354.335	Williams, E. R.; Weller, M. T. A variable-temperature neutron diffraction study of serandite: A Mn-silicate framework with a very strong, two-proton site, hydrogen bond Note: T = 800 K American Mineralogist, 2014, 99, 1755-1760
9017073	CIF	H28 K0.216 Mg2 N0.784 Na O22 P2	P m n b	6.9661; 25.236; 11.2919 90; 90; 90	1985.08	Yang, H.; Martinelli, L.; Tasso, F.; Sprocati, A. R.; Pinzari, F.; Liu, Z.; Downs, R. T.; Sun, H. J. A new biogenic, struvite-related phosphate, the ammonium-analog of hazenite, (NH4)NaMg2(PO4)2*14H2O American Mineralogist, 2014, 99, 1761-1766
9017074	CIF	Al3.08 B3 Ca0.07 Cr3.47 F0.25 Fe0.01 H3.02 K0.02 Mg2.25 Na0.87 O30.75 Si5.96 V0.22	R 3 m :H	16.0277; 16.0277; 7.3085 90; 90; 120	1625.93	Reznitskii, L.; Clark, C. M.; Hawthorne, F. C.; Grice, J. D.; Skogby, H.; Halenius, U.; Bosi, F. Chromo-alumino-povondraite, NaCr3(Al4Mg2)(Si6O18)(BO3)3(OH)3O, a new mineral species of the tourmaline supergroup American Mineralogist, 2014, 99, 1767-1773
9017075	CIF	H12 N2 O12 S2 U	P 1 21/c 1	7.736; 7.3712; 20.856 90; 102.123; 90	1162.76	Pekov, I. V.; Krivovichev, S. V.; Yapaskurt, V. O.; Chukanov, N. V.; Belakovskiy, D. I. Beshtauite, (NH4)2(UO2)(SO4)2*2H2O, a new mineral from Mount Beshtau, Northern Caucasus, Russia American Mineralogist, 2014, 99, 1783-1787
9017076	CIF	Cr2 Fe O4	P n m a	9.0633; 2.95793; 10.6391 90; 90; 90	285.219	Ishii, T.; Kojitani, H.; Tsukamoto, S.; Fujino, K.; Mori, D.; Inaguma, Y.; Tsujino, N.; Yoshino, T.; Yamazaki, D.; Higo, Y.; Funakoshi, K.; Akaogi, M. High-pressure phase transitions in FeCr2O4 and structure analysis of new post- spinel FeCr2O4 and Fe2Cr2O5 phases with meteoritical and petrological implications American Mineralogist, 2014, 99, 1788-1797
9017077	CIF	Cr2 Fe O4	C m c m	2.88445; 9.5207; 9.7532 90; 90; 90	267.842	Ishii, T.; Kojitani, H.; Tsukamoto, S.; Fujino, K.; Mori, D.; Inaguma, Y.; Tsujino, N.; Yoshino, T.; Yamazaki, D.; Higo, Y.; Funakoshi, K.; Akaogi, M. High-pressure phase transitions in FeCr2O4 and structure analysis of new post- spinel FeCr2O4 and Fe2Cr2O5 phases with meteoritical and petrological implications American Mineralogist, 2014, 99, 1788-1797
9017078	CIF	Cr2 Fe2 O5	P b a m	9.6642; 12.5; 2.9023 90; 90; 90	350.605	Ishii, T.; Kojitani, H.; Tsukamoto, S.; Fujino, K.; Mori, D.; Inaguma, Y.; Tsujino, N.; Yoshino, T.; Yamazaki, D.; Higo, Y.; Funakoshi, K.; Akaogi, M. High-pressure phase transitions in FeCr2O4 and structure analysis of new post- spinel FeCr2O4 and Fe2Cr2O5 phases with meteoritical and petrological implications American Mineralogist, 2014, 99, 1788-1797
9017079	CIF	H Mg0.5 O2 Si0.5	P n n m	4.733; 4.325; 2.842 90; 90; 90	58.176	Bindi, L.; Nishi, M.; Tsuchiya, J.; Irifune, T. Crystal chemistry of dense hydrous magnesium silicates: The structure of phase H, MgSiH2O4, synthesized at 45 GPa and 1000 C American Mineralogist, 2014, 99, 1802-1805
9017080	CIF	Al0.07 Be2.93 Ca1.08 H1.84 K Na0.02 O30.92 Si12 Y0.91 Yb0.01	P 6/m c c	10.3476; 10.3476; 13.761 90; 90; 120	1276.03	Hawthorne, F. C.; Abdu, Y. A.; Ball, N. A.; Cerny, P.; Kristiansen, R. Agakhanovite-(Y), ideally (YCa)2KBe3Si12O30, a new milarite-group mineral from the Heftetjern pegmatite, Tordal, Southern Norway: description and crystal structure American Mineralogist, 2014, 99, 2084-2088
9017081	CIF	H6 Mo2 O11 Th	P 1 21/c 1	9.6797; 10.3771; 9.3782 90; 90; 90	942.014	Orlandi, P.; Biagioni, C.; Bindi, L.; Nestola, F. Ichnusaite, Th(MoO4)2*3H2O, the first natural thorium molybdate: occurrence, description, and crystal structure American Mineralogist, 2014, 99, 2089-2094
9017082	CIF	Al1.99 Fe0.04 O4 Zn0.97	F d -3 m :2	8.0912; 8.0912; 8.0912 90; 90; 90	529.711	Fregola, R. A.; Skogby, H.; Bosi, F.; D'Ippolito V; Andreozzi, G. B.; Halenius, U. Optical absorption spectroscopy study of the causes for color variations in natural Fe-bearing gahnite: Insights from iron valency and site distribution data Note: Sample Ni8967d American Mineralogist, 2014, 99, 2187-2195
9017083	CIF	Al1.98 Fe0.1 Mg0.01 O4 Zn0.91	F d -3 m :2	8.0954; 8.0954; 8.0954 90; 90; 90	530.536	Fregola, R. A.; Skogby, H.; Bosi, F.; D'Ippolito V; Andreozzi, G. B.; Halenius, U. Optical absorption spectroscopy study of the causes for color variations in natural Fe-bearing gahnite: Insights from iron valency and site distribution data Note: Sample Ni8967e American Mineralogist, 2014, 99, 2187-2195
9017084	CIF	Al1.98 Fe0.1 Mg0.01 O4 Zn0.91	F d -3 m :2	8.0944; 8.0944; 8.0944 90; 90; 90	530.34	Fregola, R. A.; Skogby, H.; Bosi, F.; D'Ippolito V; Andreozzi, G. B.; Halenius, U. Optical absorption spectroscopy study of the causes for color variations in natural Fe-bearing gahnite: Insights from iron valency and site distribution data Note: Sample Sp2781_6a American Mineralogist, 2014, 99, 2187-2195
9017085	CIF	Al1.92 Fe0.35 Mg0.03 O4 Zn0.7	F d -3 m :2	8.1103; 8.1103; 8.1103 90; 90; 90	533.471	Fregola, R. A.; Skogby, H.; Bosi, F.; D'Ippolito V; Andreozzi, G. B.; Halenius, U. Optical absorption spectroscopy study of the causes for color variations in natural Fe-bearing gahnite: Insights from iron valency and site distribution data Note: Sample Sp2781_6c American Mineralogist, 2014, 99, 2187-2195
9017086	CIF	Al0.22 Cr0.3 Fe2.15 Mg0.26 O4 Si0.08	A m a m	9.8; 9.6; 2.87 90; 90; 90	270.01	Koch-Muller M; Mugnaioli, E.; Rhede, D.; Speziale, S.; Kolb, U.; Wirth, R. Synthesis of a quenchable high-pressure form of magnetite (h-Fe3O4) with composition Fe1(Fe2+0.75Mg0.26)Fe2(Fe3+0.70Cr0.15Al0.11Si0.04)2O4 Note: Sample Crystal 1 American Mineralogist, 2014, 99, 2405-2415
9017087	CIF	Al0.22 Cr0.3 Fe2.15 Mg0.26 O4 Si0.08	A m a m	9.8; 9.6; 2.87 90; 90; 90	270.01	Koch-Muller M; Mugnaioli, E.; Rhede, D.; Speziale, S.; Kolb, U.; Wirth, R. Synthesis of a quenchable high-pressure form of magnetite (h-Fe3O4) with composition Fe1(Fe2+0.75Mg0.26)Fe2(Fe3+0.70Cr0.15Al0.11Si0.04)2O4 Note: Sample Crystal 2 American Mineralogist, 2014, 99, 2405-2415
9017088	CIF	Ca0.96 Ce0.01 H4 O17 Si6 Yb0.01 Zr0.99	C 1 2/m 1	14.0178; 14.1289; 7.8366 90; 109.436; 90	1463.64	Mesto, E.; Kaneva, E.; Schingaro, E.; Vladykin, N.; Lacalamita, M.; Scordari, F. Armstrongite from Khan Bogdo (Mongolia): Crystal structure determination and implications for zeolite-like cation exchange properties American Mineralogist, 2014, 99, 2424-2432
9017089	CIF	Al0.38 Fe0.3 Ni0.32	I m -3 m	3.0214; 3.0214; 3.0214 90; 90; 90	27.582	Bindi, L.; Yao, N.; Lin, C.; Hollister, L. S.; MacPherson, G. J.; Poirier, G. R.; Andronicos, C. L.; Distler, V. V.; Eddy, M. P.; Kostin, A.; Kryachko, V.; Steinhardt, W. M.; Yudovskaya, M. Steinhardtite, a new body-centered-cubic allotropic form of aluminum from the Khatyrka CV3 carbonaceous chondrite American Mineralogist, 2014, 99, 2433-2436
9017090	CIF	Fe1.946 O3	I 1 2/a 1	7.3951; 5.0117; 5.4417 90; 95.666; 90	200.695	Peterson, K. M.; Heaney, P. J.; Post, J. E.; Eng, P. J. A refined monoclinic structure for a variety of "hydrohematite" Note: T = 38 C American Mineralogist, 2015, 100, 570-579
9017091	CIF	H2 O10 S Sb4	P c a 21	5.7563; 11.2538; 14.8627 90; 90; 90	962.809	Roper, A. J.; Leverett, P.; Murphy, T. D.; Williams, P. A.; Hibbs, D. E. Klebelsbergite, Sb4O4SO4(OH)2: Stability relationships, formation in nature, and refinement of its structure American Mineralogist, 2015, 100, 602-607
9017092	CIF	Fe2.017 Mg1.983 O5	C m c m	2.8889; 9.7282; 12.5523 90; 90; 90	352.767	Ballaran, T. B.; Uenver-Thiele L; Woodland, A. B. Complete substitution of Fe2+ by Mg in Fe4O5: The crystal structure of the Mg2Fe2O5 end-member American Mineralogist, 2015, 100, 628-632
9017093	CIF	Al Li O10 Si4	P 1 2/c 1	11.22955; 5.1396; 11.7514 90; 141.312; 90	423.952	Ross, N. L.; Zhao, J.; Slebodnick, C.; Spencer, E. C.; Chakoumakos, B. C. Petalite under pressure: Elastic behavior and phase stability Note: P = 0.0001 GPa American Mineralogist, 2015, 100, 714-721
9017094	CIF	Al Li O10 Si4	P 1 2/c 1	11.2067; 5.1228; 11.716 90; 141.243; 90	421.069	Ross, N. L.; Zhao, J.; Slebodnick, C.; Spencer, E. C.; Chakoumakos, B. C. Petalite under pressure: Elastic behavior and phase stability Note: P = 0.32 GPa American Mineralogist, 2015, 100, 714-721
9017095	CIF	Al Li O10 Si4	P 1 2/c 1	11.1895; 5.11; 11.6872 90; 141.19; 90	418.826	Ross, N. L.; Zhao, J.; Slebodnick, C.; Spencer, E. C.; Chakoumakos, B. C. Petalite under pressure: Elastic behavior and phase stability Note: P = 0.56 GPa American Mineralogist, 2015, 100, 714-721
9017096	CIF	Al Li O10 Si4	P 1 2/c 1	11.1705; 5.0963; 11.6569 90; 141.134; 90	416.413	Ross, N. L.; Zhao, J.; Slebodnick, C.; Spencer, E. C.; Chakoumakos, B. C. Petalite under pressure: Elastic behavior and phase stability Note: P = 0.89 GPa American Mineralogist, 2015, 100, 714-721
9017097	CIF	Al Li O10 Si4	P 1 2/c 1	11.1425; 5.0723; 11.6092 90; 141.074; 90	412.257	Ross, N. L.; Zhao, J.; Slebodnick, C.; Spencer, E. C.; Chakoumakos, B. C. Petalite under pressure: Elastic behavior and phase stability Note: P = 1.25 GPa American Mineralogist, 2015, 100, 714-721
9017098	CIF	Al3 Li3 O30 Si12	P 1 2/c 1	10.8301; 5.053; 33.59 90; 140.665; 90	1165.15	Ross, N. L.; Zhao, J.; Slebodnick, C.; Spencer, E. C.; Chakoumakos, B. C. Petalite under pressure: Elastic behavior and phase stability Note: P = 2.71 GPa American Mineralogist, 2015, 100, 714-721
9017099	CIF	Al0.62 Ca0.11 F0.03 Fe0.486 H1.97 K0.067 Mg3.884 Mn0.01 Na2.829 O23.97 Si8	C 1 2/m 1	9.8087; 17.8448; 5.2905 90; 103.66; 90	899.826	Oberti, R.; Boiocchi, M.; Hawthorne, F. C.; Ball, N. A.; Harlow, G. E. Eckermannite revised: The new holotype from the Jade Mine Tract, Myanmar-crystal structure, mineral data, and hints on the reasons for the rarity of eckermannite Note: Sample AMNH H108401 American Mineralogist, 2015, 100, 909-914
9017100	CIF	Ca1.39 Cl0.72 Fe0.26 H0.28 Mn3.41 O12.28 P3	P 63/m	9.504; 9.504; 6.347 90; 90; 120	496.492	Tait, K.; Ball, N. A.; Hawthorne, F. C. Pieczkaite, ideally Mn5(PO4)3Cl, a new apatite-supergroup mineral from Cross Lake, Manitoba, Canada: Description and crystal structure American Mineralogist, 2015, 100, 1047-1052
9017101	CIF	Cs0.44 H20.16 Hf0.04 K0.48 Na7.04 Nb0.08 O70.08 Si24 Y0.68 Zr3.28	C 1 2/m 1	14.5975; 14.11; 14.4394 90; 90.0399; 90	2974.09	Agakhanov, A. A.; Pautov, L. A.; Karpenko, V. Y.; Sokolova, E.; Abdu, Y. A.; Hawthorne, F. C.; Pekov, I. V.; Siidra, O. I. Yusupovite, Na2Zr(Si6O15)(H2O)3, a new mineral species from the Darai-Pioz alkaline massif and its implications as a new microporous filter for large ions American Mineralogist, 2015, 100, 1502-1508
9017102	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.7903; 4.7903; 15.72 90; 90; 120	312.398	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p0 Note: P = .0001 GPa American Mineralogist, 2015, 100, 2625-2629
9017103	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6581; 4.6581; 14.213 90; 90; 120	267.075	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p1 Note: P = 22.50 GPa American Mineralogist, 2015, 100, 2625-2629
9017104	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6554; 4.6554; 14.149 90; 90; 120	265.565	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p2 Note: P = 23.65 GPa American Mineralogist, 2015, 100, 2625-2629
9017105	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6473; 4.6473; 14.075 90; 90; 120	263.257	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p3 Note: P = 25.34 GPa American Mineralogist, 2015, 100, 2625-2629
9017106	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6416; 4.6416; 13.967 90; 90; 120	260.597	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p4 Note: P = 27.45 GPa American Mineralogist, 2015, 100, 2625-2629
9017107	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6301; 4.6301; 13.83 90; 90; 120	256.764	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p5 Note: P = 30.48 GPa American Mineralogist, 2015, 100, 2625-2629
9017108	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6278; 4.6278; 13.797 90; 90; 120	255.897	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p6 Note: P = 31.19 GPa American Mineralogist, 2015, 100, 2625-2629
9017109	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6193; 4.6193; 13.696 90; 90; 120	253.091	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p7 Note: P = 33.56 GPa American Mineralogist, 2015, 100, 2625-2629
9017110	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.61; 4.61; 13.582 90; 90; 120	249.975	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p8 Note: P = 36.20 GPa American Mineralogist, 2015, 100, 2625-2629
9017111	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6024; 4.6024; 13.517 90; 90; 120	247.959	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p9 Note: P = 37.58 GPa American Mineralogist, 2015, 100, 2625-2629
9017112	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.5927; 4.5927; 13.332 90; 90; 120	243.535	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p10 Note: P = 40.80 GPa American Mineralogist, 2015, 100, 2625-2629
9017113	CIF	C Ca0.04 Mn0.96 O3	P -1	2.936; 4.841; 5.568 100.82; 94.93; 90.18	77.429	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p11 Note: P = 44.46 GPa American Mineralogist, 2015, 100, 2625-2629
9017114	CIF	C Ca0.04 Mn0.96 O3	P -1	2.928; 4.816; 5.545 101.71; 94.99; 89.9	76.264	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p11a Note: P = 46.79 GPa American Mineralogist, 2015, 100, 2625-2629
9017115	CIF	C Ca0.04 Mn0.96 O3	P -1	2.934; 4.839; 5.557 101.87; 95.29; 89.73	76.872	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p12 Note: P = 44.01 GPa American Mineralogist, 2015, 100, 2625-2629
9017116	CIF	C Ca0.04 Mn0.96 O3	P -1	2.94; 4.856; 5.584 101.99; 95.58; 89.65	77.604	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p13 Note: P = 41.55 GPa American Mineralogist, 2015, 100, 2625-2629
9017117	CIF	C Ca0.04 Mn0.96 O3	P -1	2.9539; 4.843; 5.588 101.78; 95.09; 90.45	77.921	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run1-p14 Note: P = 35.67 GPa American Mineralogist, 2015, 100, 2625-2629
9017118	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.7799; 4.7799; 15.694 90; 90; 120	310.529	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p0 Note: P = .0001 GPa American Mineralogist, 2015, 100, 2625-2629
9017119	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.7788; 4.7788; 15.685 90; 90; 120	310.208	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p1 Note: P = .22 GPa American Mineralogist, 2015, 100, 2625-2629
9017120	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.7753; 4.7753; 15.636 90; 90; 120	308.786	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p2 Note: P = .79 GPa American Mineralogist, 2015, 100, 2625-2629
9017121	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.7714; 4.7714; 15.578 90; 90; 120	307.138	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p3 Note: P = 1.62 GPa American Mineralogist, 2015, 100, 2625-2629
9017122	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.7654; 4.7654; 15.531 90; 90; 120	305.442	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p4 Note: P = 2.12 GPa American Mineralogist, 2015, 100, 2625-2629
9017123	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.7581; 4.7581; 15.473 90; 90; 120	303.37	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p5 Note: P = 2.66 GPa American Mineralogist, 2015, 100, 2625-2629
9017124	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.7426; 4.7426; 15.368 90; 90; 120	299.351	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p6 Note: P = 3.57 GPa American Mineralogist, 2015, 100, 2625-2629
9017125	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.7409; 4.7409; 15.319 90; 90; 120	298.183	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p7 Note: P = 4.39 GPa American Mineralogist, 2015, 100, 2625-2629
9017126	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.7415; 4.7415; 15.308 90; 90; 120	298.044	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p8 Note: P = 4.74 GPa American Mineralogist, 2015, 100, 2625-2629
9017127	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.7388; 4.7388; 15.287 90; 90; 120	297.296	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p9 Note: P = 5.20 GPa American Mineralogist, 2015, 100, 2625-2629
9017128	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.7332; 4.7332; 15.1926 90; 90; 120	294.763	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p10 Note: P = 6.33 GPa American Mineralogist, 2015, 100, 2625-2629
9017129	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.7248; 4.7248; 15.1242 90; 90; 120	292.395	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p11 Note: P = 7.01 GPa American Mineralogist, 2015, 100, 2625-2629
9017130	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.7177; 4.7177; 15.043 90; 90; 120	289.952	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p12 Note: P = 8.33 GPa American Mineralogist, 2015, 100, 2625-2629
9017131	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.7146; 4.7146; 14.9903 90; 90; 120	288.556	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p13 Note: P = 9.17 GPa American Mineralogist, 2015, 100, 2625-2629
9017132	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.7087; 4.7087; 14.9313 90; 90; 120	286.702	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p14 Note: P = 9.82 GPa American Mineralogist, 2015, 100, 2625-2629
9017133	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.7017; 4.7017; 14.855 90; 90; 120	284.389	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p15 Note: P = 10.88 GPa American Mineralogist, 2015, 100, 2625-2629
9017134	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6955; 4.6955; 14.7918 90; 90; 120	282.433	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p16 Note: P = 11.90 GPa American Mineralogist, 2015, 100, 2625-2629
9017135	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6929; 4.6929; 14.7382 90; 90; 120	281.098	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p17 Note: P = 12.73 GPa American Mineralogist, 2015, 100, 2625-2629
9017136	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6826; 4.6826; 14.613 90; 90; 120	277.488	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p18 Note: P = 14.82 GPa American Mineralogist, 2015, 100, 2625-2629
9017137	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6775; 4.6775; 14.528 90; 90; 120	275.273	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p19 Note: P = 16.42 GPa American Mineralogist, 2015, 100, 2625-2629
9017138	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6679; 4.6679; 14.4441 90; 90; 120	272.561	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p20 Note: P = 17.66 GPa American Mineralogist, 2015, 100, 2625-2629
9017139	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6686; 4.6686; 14.401 90; 90; 120	271.83	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p21 Note: P = 18.69 GPa American Mineralogist, 2015, 100, 2625-2629
9017140	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6641; 4.6641; 14.341 90; 90; 120	270.175	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p22 Note: P = 19.78 GPa American Mineralogist, 2015, 100, 2625-2629
9017141	CIF	C Ca0.04 Mn0.96 O3	R -3 c :H	4.6624; 4.6624; 14.33 90; 90; 120	269.771	Merlini, M.; Hanfland, M.; Gemmi, M. The MnCO3-II high-pressure polymorph of rhodocrosite Note: Sample run2-p23 Note: P = 20.24 GPa American Mineralogist, 2015, 100, 2625-2629
9017142	CIF	H18 Mg1.09 Na0.91 O13 P	P -1	6.9296; 11.9767; 14.9436 92.109; 102.884; 105.171	1160.88	Kampf, A. R.; Mills, S. J.; Nash, B. P.; Jensen, M.; Nikischer, T. Apexite, NaMg(PO4)*9H2O, a new struvite-type phase with a heteropolyhedral cluster American Mineralogist, 2015, 100, 2695-2701
9017143	CIF	Ca9 Fe0.048 Mg0.952 Na0.98 O28 P7	R 3 c :H	10.3444; 10.3444; 37.0182 90; 90; 120	3430.49	Xie, X.; Yang, H.; Gu, X.; Downs, R. T. Chemical composition and crystal structure of merrillite from the Suizhou meteorite American Mineralogist, 2015, 100, 2753-2756
9017144	CIF	Al0.235 Fe1.765 O3	P n a 21	5.0647; 8.7131; 9.3842 90; 90; 90	414.118	Xu, H.; Lee, S.; Xu, H. Luogufengite: A new nano-mineral of Fe2O3 polymorph with giant coercive field American Mineralogist, 2017, 102, 711-719
9017145	CIF	C31 H32 Cr0.02 Fe0.05 N4 Ni0.93	P -1	8.4416; 10.8919; 7.2749 90.465; 113.158; 78.08	599.743	Hummer, D. R.; Noll, B. C.; Hazen, R. M.; Downs, R. T. Crystal structure of abelsonite, the only known crystalline geoporphyrin Note: T = 100 K American Mineralogist, 2017, 102, 1129-1132
9017146	CIF	Al2 Ca6 H66 O51 S3	P 3 1 c	11.171; 11.171; 21.364 90; 90; 120	2308.86	Gatta, G. D.; Halenius, U.; Bosi, F.; Canadillas-Delgado L; Fernandez-Diaz M T Minerals in cement chemistry: A single-crystal neutron diffraction study of ettringite, Ca6Al2(SO4)3(OH)12·27H2O American Mineralogist, 2019, 104, 73-78
9017147	CIF	Al0.877 Fe0.123 H24 K0.879 O20 S2 Tl0.121	P a -3	12.203; 12.203; 12.203 90; 90; 90	1817.19	Biagioni, C.; Mauro, D.; Pasero, M.; Bonaccorsi, E.; Lepore, G. O.; Zaccarini, F.; Skogby, H. Crystal-chemistry of sulfates from the Apuan Alps (Tuscany, Italy). VI. Tl-bearing alum-(K) and voltaite from the Fornovolasco mining complex American Mineralogist, 2020, 105, 1088-1098
9017148	CIF	Al Fe6.44 H24 K1.872 Mg1.56 O66 S12 Tl0.128	F d -3 c :2	27.2635; 27.2635; 27.2635 90; 90; 90	20264.9	Biagioni, C.; Mauro, D.; Pasero, M.; Bonaccorsi, E.; Lepore, G. O.; Zaccarini, F.; Skogby, H. Crystal-chemistry of sulfates from the Apuan Alps (Tuscany, Italy). VI. Tl-bearing alum-(K) and voltaite from the Fornovolasco mining complex American Mineralogist, 2020, 105, 1088-1098
9017149	CIF	Ca H8 O10 V2	P -1	8.534; 8.556; 7.015 101.53; 114.97; 103.38	425.242	Ahmed, F. R.; Barnes, W. H. The crystal structure of rossite The Canadian Mineralogist, 1963, 7, 713-726
9017150	CIF	As1.02 Ir0.05 Os0.01 Pt0.35 Rh0.31 Ru0.29 S0.98	P a -3	5.788; 5.788; 5.788 90; 90; 90	193.903	Szymanski, J. T. The crystal structure of platarsite, Pt(As,S)2, and a comparison with sperrylite, PtAs2 The Canadian Mineralogist, 1979, 17, 117-123
9017152	CIF	Al1.97 Ca Fe0.03 H6 O30 Pb3 Si10	P 3 1 c	8.56; 8.56; 20.19 90; 90; 120	1281.19	Lam, A. E.; Groat, L. A. The crystal structure of wickenburgite, Pb3CaAl[AlSi10O27](H2O)3, a sheet structure Sample: UBC refinement The Canadian Mineralogist, 1994, 32, 525-532
9017153	CIF	Al1.81 Ca Fe0.19 H6 O30 Pb3 Si10	P 3 1 c	8.546; 8.546; 20.168 90; 90; 120	1275.61	Lam, A. E.; Groat, L. A. The crystal structure of wickenburgite, Pb3CaAl[AlSi10O27](H2O)3, a sheet structure Sample: UMAN refinement The Canadian Mineralogist, 1994, 32, 525-532
9017154	CIF	Cl1.29 Cu3.99 H6.71 O6.71	P 63/m m c	6.6733; 6.6733; 9.185 90; 90; 120	354.235	Burns, P. C.; Cooper, M. A.; Hawthorne, F. C. Claringbullite: A Cu oxysalt with Cu in trigonal-prismatic coordination The Canadian Mineralogist, 1995, 33, 633-639
9017155	CIF	Cu3 H7 O8 S0.5	C m c 21	2.989; 16.97; 14.812 90; 90; 90	751.314	Orlandi, P.; Bonaccorsi, E. Montetrisaite, a new hydroxy-hydrated copper sulfate species from Monte Trisa, Vicenza, Italy The Canadian Mineralogist, 2009, 47, 143-151
9017156	CIF	Al2.842 F0.054 Fe0.07 H1.946 K0.865 Mg0.036 Na0.135 O11.946 Si3.044 Ti0.006	C 1 2/c 1	5.1969; 9.0138; 20.0835 90; 95.763; 90	936.033	Elmi, C.; Brigatti, M. F.; Guggenheim, S.; Pasquali, L.; Montecchi, M.; Malferrari, D.; Nannarone, S. Sodian muscovite-2M1: crystal chemistry and surface features The Canadian Mineralogist, 2013, 51, 5-14
9017157	CIF	Ca H24 Na1.496 O26 V5	P 1 21/n 1	10.0099; 21.8472; 11.1504 90; 116.584; 90	2180.67	Kampf, A. R.; Hughes, J. M.; Marty, J.; Brown, F. H. Nashite, Na3Ca2[(V4+V5+9)O28]*24H2O, a new mineral species from the Yellow Cat Mining District, Utah and the Slick Rock Mining District, Colorado: crystal structure and descriptive mineralogy The Canadian Mineralogist, 2013, 51, 27-37
9017158	CIF	Al0.18 Cl Fe1.82 H17.568 K0.108 N3.892 Na O18 S4	I 41/a c d :2	18.261; 18.261; 11.562 90; 90; 90	3855.51	Mitolo, D.; Demartin, F.; Garavelli, A.; Campostrini, I.; Pinto, D.; Gramaccioli, C. M.; Acquafredda, P.; Kolitsch, U. Adranosite-(Fe), (NH4)4NaFe2(SO4)4Cl(OH)2, a new ammonium sulfate chloride from La Fossa Crater, Vulcano, Aeolian Islands, Italy The Canadian Mineralogist, 2013, 51, 57-66
9017159	CIF	Al0.005 Ba0.785 Ca0.215 F Fe0.63 K0.07 Mg0.395 Mn0.15 Na0.715 Nb0.045 O8 Si2 Sr0.07 Ti0.835 Zr0.01	P -1	5.396; 7.071; 10.226 99.73; 99.55; 90.09	379.056	Sokolova, E.; Hawthorne, F. C.; Abdu, Y. A. From structure topology to chemical composition. XV. Titanium silicates: revision of the crystal structure and chemical formula of schullerite, Na2Ba2Mg2Ti2(Si2O7)2O2F2, from the Eifel volcanic region, Germany The Canadian Mineralogist, 2013, 51, 715-772
9017160	CIF	Al0.08 Ca7.53 Fe0.25 H1.45 Mg0.11 Mn0.56 Na1.67 O28 P7	R 3 c :H	10.3926; 10.3926; 37.1694 90; 90; 120	3476.68	Cooper, M. A.; Hawthorne, F. C.; Abdu, Y. A.; Ball, N. A.; Ramik, R. A.; Tait, K. T. Wopmayite, ideally Ca6Na3[]Mn(PO4)3(PO3OH)4, a new phosphate mineral from the Tanco Mine, Bernic Lake, Manitoba: description and crystal structure The Canadian Mineralogist, 2013, 51, 93-106
9017161	CIF	Al F1.02 Fe0.04 H33.96 Mg0.81 Mn0.07 O24.98 S2 Zn0.04	P -1	6.644; 6.749; 14.892 79.664; 80.113; 63.487	584.648	Peterson, R. C.; Joy, B. R. Wilcoxite MgAl(SO4)2F*17H2O, from Rico, Colorado: occurrence and crystal structure The Canadian Mineralogist, 2013, 51, 107-117
9017162	CIF	B22 Ca4 Cl H18 K O46	P 1	6.535; 24.185; 6.589 92.626; 119.132; 97.298	895.288	Poulin, R. S.; Grice, J. D. Volkovskite, a complex borate mineral: refined crystallographic data and optics The Canadian Mineralogist, 2013, 51, 157-169
9017163	CIF	Al0.338 Fe2.662 H20.001 K O30 P6	P 3 1 c	9.044; 9.044; 16.706 90; 90; 120	1183.38	Hu, Z. B.; Wang, C. X.; Tong, C. Q.; Huang, Y. X.; Pan, Y.; Mi, J. X. Crystal structure and magnetic property of synthetic gengenbachite, KH8(Fe2.66Al0.34)(PO4)6*6H2O The Canadian Mineralogist, 2013, 51, 223-232
9017164	CIF	As H3 O6 Zn2	P 1 21/c 1	12.8052; 7.9249; 10.2173 90; 104.433; 90	1004.13	Hawthorne, F. C.; Abdu, Y. A.; Tait, K. T. Hydrogen bonding in the crystal structure of legrandite: Zn2(AsO4)(OH)(H2O) The Canadian Mineralogist, 2013, 51, 233-241
9017165	CIF	Al0.01 Ca0.18 Fe0.22 H17.22 Mg1.02 Mn3.1 O29.28 Si8 Ti0.02 Zn0.11	C 1 2/m 1	14.1686; 17.8583; 5.2919 90; 105.878; 90	1287.91	Hawthorne, F. C.; Abdu, Y. A.; Tait, K. T.; Back, M. E. The crystal structure of yofortierite The Canadian Mineralogist, 2013, 51, 243-251
9017166	CIF	Be2.264 Ca1.161 Fe0.917 H6 O17 Si4.736	P 1 21/c 1	8.7499; 4.916; 31.431 90; 90.1574; 90	1351.98	Grice, J. D.; Kristiansen, R.; Friis, H.; Rowe, R.; Poirier, G. G.; Selbekk, R. S.; Cooper, M. A.; Larsen, A. O. Ferrochiavennite, a new beryllium silicate zeolite from syenite pegmatites in the Larvik Plutonic Complex, Oslo Region, Southern Norway The Canadian Mineralogist, 2013, 51, 285-296
9017167	CIF	Ca0.94 H19 K0.01 Na0.04 O23 Sr0.01 V5	P -1	9.7212; 10.2598; 10.5928 89.999; 77.083; 69.887	963.551	Kampf, A. R.; Hughes, J. M.; Marty, J.; Nash, B. Wernerbaurite, {[Ca(H2O)7]2(H2O)2(H3O)2}{V10O28}, and schindlerite, {[Na2(H2O)10](H3O)4}{V10O28}, the first hydronium-bearing decavanadate minerals The Canadian Mineralogist, 2013, 51, 297-312
9017168	CIF	Ca0.02 H16 K0.18 Na0.79 O21 Sr0.01 V5	P -1	8.5143; 10.4283; 11.2827 68.595; 87.253; 67.112	854.077	Kampf, A. R.; Hughes, J. M.; Marty, J.; Nash, B. Wernerbaurite, {[Ca(H2O)7]2(H2O)2(H3O)2}{V10O28}, and schindlerite, {[Na2(H2O)10](H3O)4}{V10O28}, the first hydronium-bearing decavanadate minerals The Canadian Mineralogist, 2013, 51, 297-312
9017169	CIF	As0.9 Pb1.6 S17 Sb8.8 Tl1.7	P -1	8.15; 8.716; 21.579 85.18; 96.94; 88.6	1515.33	Orlandi, P.; Biagioni, C.; Moelo, Y.; Bonaccorsi, E.; Paar, W. H. Lead-antimony sulfosalts from Tuscany (Italy). XIII. Protochabourneite, ~Tl2Pb(Sb9-8As1-2)S10S17, from the Monte Arsiccio mine: occurrence, crystal structure, and relationship with chabourneite The Canadian Mineralogist, 2013, 51, 475-494
9017170	CIF	Al1.96 Cl Fe0.04 H15 O13 S	C 1 2/c 1	11.9246; 16.134; 7.4573 90; 125.815; 90	1163.43	Chukanov, N. V.; Krivovichev, S. V.; Chernyatieva, A. P. Vendidaite, Al2(SO4)(OH)3Cl*6H2O, a new mineral from La Vendida copper mine, Antofagasta region, Chile The Canadian Mineralogist, 2013, 51, 559-568
9017171	CIF	C F2 Li Na3 O15 P3 Y3	P 2 2 2	11.167; 11.164; 11.162 90; 90; 90	1391.55	McDonald, A. M.; Back, M. E.; Gault, R. A.; Horvath, L. Peatite-(Y) and ramikite-(Y), two new Na-Li-Y±Zr phosphate-carbonate minerals from the Poudrette pegmatite, Mont Saint-Hilaire, Quebec The Canadian Mineralogist, 2013, 51, 569-596
9017172	CIF	C2 H2 Li2 Na6 O34 P6 Y3 Zr3	P 1	10.9977; 10.9985; 10.9966 90.074; 89.984; 89.969	1330.13	McDonald, A. M.; Back, M. E.; Gault, R. A.; Horvath, L. Peatite-(Y) and ramikite-(Y), two new Na-Li-Y±Zr phosphate-carbonate minerals from the Poudrette pegmatite, Mont Saint-Hilaire, Quebec The Canadian Mineralogist, 2013, 51, 569-596
9017173	CIF	Ca0.26 Fe1.4 Mg0.02 Mn1.31 O8 P2 Zn0.01	P 1 21/c 1	8.8052; 11.4793; 6.1388 90; 99.192; 90	612.527	Tait, K. T.; Hawthorne, F. C.; Wise, M. A. The crystal chemistry of the graftonite-beusite minerals Notes: Sample B1 The Canadian Mineralogist, 2013, 51, 653-662
9017174	CIF	Ca0.36 Fe0.67 Mg0.21 Mn1.75 O8 P2 Zn0.01	P 1 21/c 1	8.79; 11.5382; 6.1654 90; 99.199; 90	617.258	Tait, K. T.; Hawthorne, F. C.; Wise, M. A. The crystal chemistry of the graftonite-beusite minerals Notes: Sample B2 The Canadian Mineralogist, 2013, 51, 653-662
9017175	CIF	Ca0.36 Fe0.67 Mg0.21 Mn1.75 O8 P2 Zn0.01	P 1 21/c 1	8.7919; 11.5414; 6.1669 90; 99.192; 90	617.725	Tait, K. T.; Hawthorne, F. C.; Wise, M. A. The crystal chemistry of the graftonite-beusite minerals Notes: Sample B3 The Canadian Mineralogist, 2013, 51, 653-662
9017176	CIF	Ca0.2 Fe1.22 Mg0.24 Mn1.33 O8 P2 Zn0.01	P 1 21/c 1	8.775; 11.437; 6.133 90; 99.192; 90	607.602	Tait, K. T.; Hawthorne, F. C.; Wise, M. A. The crystal chemistry of the graftonite-beusite minerals Notes: Sample B4 The Canadian Mineralogist, 2013, 51, 653-662
9017177	CIF	Ca0.58 Fe1.65 Mg0.15 Mn0.61 O8 P2 Zn0.01	P 1 21/c 1	8.7994; 11.5702; 6.1365 90; 99.192; 90	616.739	Tait, K. T.; Hawthorne, F. C.; Wise, M. A. The crystal chemistry of the graftonite-beusite minerals Notes: Sample B5 The Canadian Mineralogist, 2013, 51, 653-662
9017178	CIF	Ca0.57 Fe1.59 Mg0.02 Mn0.81 O8 P2 Zn0.01	P 1 21/c 1	8.788; 11.583; 6.141 90; 99.3; 90	616.885	Tait, K. T.; Hawthorne, F. C.; Wise, M. A. The crystal chemistry of the graftonite-beusite minerals Notes: Sample B6 The Canadian Mineralogist, 2013, 51, 653-662
9017179	CIF	Ca0.37 Fe1.51 Mg0.11 Mn1.01 O8 P2	P 1 21/c 1	8.8072; 11.5131; 6.1372 90; 99.243; 90	614.221	Tait, K. T.; Hawthorne, F. C.; Wise, M. A. The crystal chemistry of the graftonite-beusite minerals Notes: Sample B7 Note: O7 y-coordinate edited by author The Canadian Mineralogist, 2013, 51, 653-662
9017180	CIF	Al1.953 Ca2.922 Fe0.1 Mg0.003 Mn0.048 O12 Si2.955 Ti0.02	I a -3 d	11.8514; 11.8514; 11.8514 90; 90; 90	1664.6	Antao, S. M. Is near-endmember birefringent grossular non-cubic? New evidence from synchrotron diffraction Note: sample 1, Quebec-b phase-1 The Canadian Mineralogist, 2013, 51, 771-784
9017181	CIF	Al1.953 Ca2.922 Fe0.1 Mg0.003 Mn0.048 O12 Si2.955 Ti0.02	I a -3 d	11.8436; 11.8436; 11.8436 90; 90; 90	1661.31	Antao, S. M. Is near-endmember birefringent grossular non-cubic? New evidence from synchrotron diffraction Note: sample 1, Quebec-b phase-2 The Canadian Mineralogist, 2013, 51, 771-784
9017182	CIF	Al1.709 Ca2.994 Cr0.216 Fe0.046 Mg0.003 Mn0.036 O12 Si2.943 Ti0.054	I a -3 d	11.87707; 11.87707; 11.87707 90; 90; 90	1675.44	Antao, S. M. Is near-endmember birefringent grossular non-cubic? New evidence from synchrotron diffraction Note: sample 2, Quebec-g phase-1 The Canadian Mineralogist, 2013, 51, 771-784
9017183	CIF	Al1.709 Ca2.994 Cr0.216 Fe0.046 Mg0.003 Mn0.036 O12 Si2.943 Ti0.054	I a -3 d	11.86193; 11.86193; 11.86193 90; 90; 90	1669.04	Antao, S. M. Is near-endmember birefringent grossular non-cubic? New evidence from synchrotron diffraction Note: sample 2, Quebec-g phase-2 The Canadian Mineralogist, 2013, 51, 771-784
9017184	CIF	Al1.1 Ca2.955 Fe0.864 Mg0.048 Mn0.023 O12 Si2.94 Ti0.07	I a -3 d	11.94161; 11.94161; 11.94161 90; 90; 90	1702.9	Antao, S. M. Is near-endmember birefringent grossular non-cubic? New evidence from synchrotron diffraction Note: sample 3, Tanzania phase-1 The Canadian Mineralogist, 2013, 51, 771-784
9017185	CIF	Al1.1 Ca2.955 Fe0.864 Mg0.048 Mn0.023 O12 Si2.94 Ti0.07	I a -3 d	11.95012; 11.95012; 11.95012 90; 90; 90	1706.54	Antao, S. M. Is near-endmember birefringent grossular non-cubic? New evidence from synchrotron diffraction Note: sample 3, Tanzania phase-2 The Canadian Mineralogist, 2013, 51, 771-784
9017186	CIF	Al1.877 Ca2.964 Fe0.116 Mg0.012 Mn0.012 O12 Si2.973 Ti0.008	I a -3 d	11.85584; 11.85584; 11.85584 90; 90; 90	1666.47	Antao, S. M. Is near-endmember birefringent grossular non-cubic? New evidence from synchrotron diffraction Note: sample 4, Afghanistan single-phase The Canadian Mineralogist, 2013, 51, 771-784
9017187	CIF	As4 Cu6 S9	P 1	9.103; 9.86; 9.111 90.27; 109.53; 107.58	729.618	Bindi, L.; Makovicky, E.; Nestola, F.; Battisti, L. D. Sinnerite, Cu6As4S9, from the Lengenbach Quarry, Binn Valley, Switzerland: Description and re-investigation of the crystal structure The Canadian Mineralogist, 2013, 51, 851-860
9017188	CIF	Ba0.095 Ca0.35 F0.165 Fe0.05 H6.8 K0.075 Mg0.085 Mn0.185 Na0.965 Nb0.23 O12.335 Si2 Sr0.225 Ti1.465 Zr0.005	P -1	5.387; 7.091; 15.473 96.58; 93.948; 89.818	585.763	Camara, F.; Sokolova, E.; Abdu, Y.; Hawthorne, F. C.; Khomyakov, A. P. Kolskyite, (Ca[_])Na2Ti4(Si2O7)2O4(H2O)7, a group-IV Ti-disilicate mineral from the Khibiny alkaline massif, Kola Peninsula, Russia: Description and crystal structure The Canadian Mineralogist, 2013, 51, 921-936
9017189	CIF	Al4.842 B1.598 Ca1.898 Mg2.733 Na0.102 O20 Si2.827	P -1	10.022; 10.406; 8.643 106.41; 95.992; 124.38	672.788	Grice, J. D.; Belley, P. M.; Fayek, M. Serendibite, a complex chemical borosilicate mineral from Pontiac, Quebec: Description, chemical composition, and crystallographic data The Canadian Mineralogist, 2014, 52, 1-14
9017190	CIF	B Fe0.1 H2 Mn1.9 Na O11 Si3	P -1	6.837; 7.575; 8.841 99.91; 102.19; 102.78	424.812	Haring, M. M. M.; McDonald, A. M. Steedeite, NaMn2[Si3BO9](OH)2: characterization, crystal-structure determination, and origin The Canadian Mineralogist, 2014, 52, 47-60
9017191	CIF	F Fe0.036 Mn1.964 O4 P	I 1 2/a 1	12.109; 6.5162; 10.117 90; 106.16; 90	766.737	Vignola, P.; Gatta, G. D.; Hatert, F.; Guastoni, A.; Bersani, D. On the crystal-chemistry of a near-endmember triplite, Mn2+2(PO4)F, from the Codera Valley (Sondrio Province, Central Alps, Italy) The Canadian Mineralogist, 2014, 52, 235-245
9017192	CIF	Al5.688 B3 Ca0.424 Fe2.517 H7 Mg0.795 Na0.576 O31 Si6	R 3 m :H	16.0047; 16.0047; 7.212 90; 90; 120	1599.86	Gadas, P.; Novak, M.; Cempirek, J.; Filip, J.; Galiova, M. V.; Groat, L. A.; Vsiansky, D. Mineral assemblages, compositional variation, and crystal structure of feruvitic tourmaline from a contaminated anatectic pegmatite at Mirosov near Strazek, Moldanubian zone, Czech Republic Note: site occupancies from typical X-ray diffraction analysis The Canadian Mineralogist, 2014, 52, 285-301
9017193	CIF	Al5.592 B3 Ca0.494 F0.06 Fe2.472 H4.648 Mg0.939 Mn0.03 Na0.451 O30.94 Si5.88 Ti0.084 Zn0.006	R 3 m :H	16.0047; 16.0047; 7.212 90; 90; 120	1599.86	Gadas, P.; Novak, M.; Cempirek, J.; Filip, J.; Galiova, M. V.; Groat, L. A.; Vsiansky, D. Mineral assemblages, compositional variation, and crystal structure of feruvitic tourmaline from a contaminated anatectic pegmatite at Mirosov near Strazek, Moldanubian zone, Czech Republic Note: site occupancies from electron density approximation The Canadian Mineralogist, 2014, 52, 285-301
9017194	CIF	B2 Ba2 Ca O14 Si4	I -4 2 m	10.9515; 10.9515; 10.3038 90; 90; 90	1235.79	Kampf, A. R.; Peterson, R. C.; Joy, B. R. Itsiite, Ba2Ca(BSi2O7)2, a new mineral species from Yukon, Canada: description and crystal structure The Canadian Mineralogist, 2014, 52, 401-407
9017195	CIF	Ag3.5 Cu24.5 Te35	C 1 2/c 1	17.906; 17.927; 21.23 90; 98.081; 90	6747.18	Bindi, L.; Pinch, W. W. Cameronite, Cu5-x(Cu,Ag)3+xTe10 (x = 0.43), from the Good Hope mine, Vulcan, Colorado: Crystal structure and revision of the chemical formula The Canadian Mineralogist, 2014, 52, 423-432
9017196	CIF	Cs0.04 Cu3.99 K2.85 Na O18 Rb0.08 S4 Zn0.02	P n 21 a	14.281; 4.9478; 24.1127 90; 90; 90	1703.79	Pekov, I. V.; Zubkova, N. V.; Yapaskurt, V. O.; Belakovskiy, D. I.; Chukanov, N. V.; Lykova, I. S.; Savelyev, D. P.; Sidorov, E. G.; Pushcharovsky, D. Y. Wulffite, K3NaCu4O2(SO4)4, and parawulffite, K5Na3Cu8O4(SO4)8, two new minerals from fumarole sublimates of the Tolbachik volcano, Kamchatka, Russia The Canadian Mineralogist, 2014, 52, 699-716
9017197	CIF	Cs0.14 Cu7.95 K4.75 Na2.95 O36 Rb0.25 S8 Zn0.04	P 1 2/c 1	13.9043; 4.9765; 23.5855 90; 90.209; 90	1631.98	Pekov, I. V.; Zubkova, N. V.; Yapaskurt, V. O.; Belakovskiy, D. I.; Chukanov, N. V.; Lykova, I. S.; Savelyev, D. P.; Sidorov, E. G.; Pushcharovsky, D. Y. Wulffite, K3NaCu4O2(SO4)4, and parawulffite, K5Na3Cu8O4(SO4)8, two new minerals from fumarole sublimates of the Tolbachik volcano, Kamchatka, Russia The Canadian Mineralogist, 2014, 52, 699-716
9017198	CIF	Al0.01 Ba0.61 Ca0.26 F0.74 Fe0.04 H5.26 K0.13 Mg0.01 Mn0.68 Na2.22 Nb0.76 O19.26 Si4 Sr0.2 Ti2.09	P -1	5.437; 7.141; 21.69 92.97; 96.07; 90.01	836.268	Camara, F.; Sokolova, E.; Abdu, Y. A.; Hawthorne, F. C. Saamite, Ba[]TiNbNa3Ti(Si2O7)2O2(OH)2(H2O)2, a group-III Ti-disilicate mineral from the Khibiny alkaline massif, Kola Peninsula, Russia: description and crystal structure The Canadian Mineralogist, 2014, 52, 745-761
9017199	CIF	Cu0.55 Fe0.13 Ga0.19 In0.08 S Zn0.08	F -4 3 m	5.368; 5.368; 5.368 90; 90; 90	154.681	Marquez-Zavalia M F; Galliski, M. A.; Drabek, M.; Vymazalova, A.; Watanabe, Y.; Murakami, H.; Bernhardt, H. J. Ishiharaite, (Cu,Ga,Fe,In,Zn)S, a new mineral from the Capillitas mine, Northwestern Argentina The Canadian Mineralogist, 2015, 52, 969-980
9017200	CIF	Al0.59 Ca0.17 F0.42 Fe4.53 H1.58 K0.27 Mg0.06 Mn0.31 Na2.51 O23.58 Si7.41 Ti0.06 Zn0.01	C 1 2/m 1	9.919; 18.0885; 5.344 90; 103.813; 90	931.091	Lussier, A. J.; Hawthorne, F. C.; Abdu, Y. A.; Ball, N. A.; Tait, K. T.; Back, M. E.; Steede, A. H.; Taylor, R.; McDonald, A. M. Ferro-ferri-nyboite, NaNa2(Fe2+3Fe3+2)Si8O22(OH)2, a new clinoamphibole from Mont Saint-Hilaire, Quebec, Canada: description and crystal structure The Canadian Mineralogist, 2015, 52, 1019-1026
9017201	CIF	Be2 Fe2 H12 Mn O22 P4	P 31 2 1	9.404; 9.404; 15.92 90; 90; 120	1219.27	Cooper, M. A.; Hawthorne, F. C. The crystal structure of faheyite, Mn2+Fe3+2[Be2(PO4)4](H2O)6: a new twist for the [Be(PPhi4)2] chain The Canadian Mineralogist, 2015, 53, 199-208
9017202	CIF	Al0.92 B4 Ca1.582 Fe0.08 H2 Mn0.88 O24 Si4 Y2.752 Yb0.386	P 1 2/a 1	18.609; 4.6307; 10.143 90; 111.475; 90	813.371	Miyawaki, R.; Momma, K.; Yokoyama, K.; Shigeoka, M.; Matsubara, S.; Ito, M.; Nakai, I.; Kristiansen, R. Mn-bearing hellandite-(Y) from the Heftetjern pegmatite, Tordal, Norway The Canadian Mineralogist, 2015, 53, 345-356
9017203	CIF	Al0.164 Ca0.277 Fe2.454 H18 Mg1.545 Mn0.961 Na0.569 O26 P4	P 1 2/a 1	15.1045; 7.1629; 9.8949 90; 110.64; 90	1001.84	Kampf, A. R.; Elliott, P.; Nash, B. P.; Chiappino, L.; Varvello, S. Jahnsite-(NaMnMg), a new jahnsite-group mineral from the Sapucaia mine, Brazil and the White Rock No. 2 quarry, Australia The Canadian Mineralogist, 2018, 56, 871-882
9017204	CIF	Al1.82 Ca0.39 H16 K0.01 Mg2.08 Mn1.66 Na0.03 O26 P4	P 1 2/a 1	15.0357; 6.9408; 9.9431 90; 110.827; 90	969.857	Elliott, P.; Willis, A. C. Whiteite-(MnMnMg), a new jahnsite-group mineral from Iron Monarch, South Australia: Description and crystal structure Note: Not all hydrogens were located The Canadian Mineralogist, 2019, 57, 215-223
9017205	CIF	Ca0.25 Fe4 H18 Mn1.4 Na0.05 O26 P4	P 1 2/a 1	15.1559; 7.1478; 10.0209 90; 112.059; 90	1006.11	Vignola, P.; Hatert, F.; Rotiroti, N.; Nestola, F.; Risplendente, A.; Vanini, F. Jahnsite-(MnMnFe), Mn2+Mn2+Fe22+Fe23+(PO4)4(OH)2*8H2O, a new phosphate mineral from the Malpensata pegmatite, Olgiasca, Colico municipality, Lecco province, Italy The Canadian Mineralogist, 2019, 57, 225-233
9017206	CIF	Al0.36 Ca0.25 Fe1.85 H22 Mg1.26 Mn2.02 Na0.2 O26 P4	P 1 2/a 1	15.177; 7.176; 10.006 90; 111.01; 90	1017.31	Vignola, P.; Hatert, F.; Baijot, M.; Rotiroti, N.; Risplendente, A.; Varvello, S. Jahnsite-(MnMnMg), Mn2+Mn2+Mg2+2Fe3+2(PO4)4(OH)2*8H2O, a new phosphate mineral species from Sapucaia pegmatite, Sapucaia Do Norte, Galileia, Minas Gerais, Brazil The Canadian Mineralogist, 2019, 57, 363-370
9017207	CIF	Ca O4 S	B m m b	6.992; 6.999; 6.24 90; 90; 90	305.367	Hartman, P. On the unit cell dimensions and bond lengths of anhydrite Note: this is a re-indexed structure of Hawthorne and Ferguson (1975) European Journal of Mineralogy, 1989, 1, 721-722
9017208	CIF	C20 H36	P 21 21 21	12.356; 12.762; 11.427 90; 90; 90	1801.89	Franzini, L.; Pasero, M.; Perchiazzi, N. Re-discovery and re-definition of dinite, C20H36, a forgotten organic mineral from Garfagnana, northern Tuscany, Italy European Journal of Mineralogy, 1991, 3, 855-861
9017209	CIF	Ca2 H2 O9 S2	I 1 2 1	12.035; 6.9294; 12.6705 90; 90.266; 90	1056.65	Ballirano, P.; Maras, A.; Meloni, S.; Caminiti, R. The monoclinic I2 structure of bassanite, calcium sulphate hemihydrate European Journal of Mineralogy, 2001, 13, 985-993
9017211	CIF	Al0.824 Ca3 Fe1.176 O8 Ti	P m m a	5.42; 11.064; 5.5383 90; 90; 90	332.115	Sharygin, V. V.; Lazic, B.; Armbruster, T. M.; Murashko, M. N.; Wirth, R.; Galuskina, I. O.; Galuskin, E. V.; Vapnik, Y.; Britvin, S. N.; Logvinova, A. M. Shulamitite Ca3TiFe3+AlO8 - a new perovskite-related mineral from Hatrurim Basin, Israel European Journal of Mineralogy, 2013, 25, 97-111
9017212	CIF	Ba O24 Si7 Yb6	P 1 21/m 1	5.5173; 27.26; 6.815 90; 106.73; 90	981.601	Wierzbicka-Wieczorek M; Kolitsch, U. BaYb6(Si2O7)2(Si3O10) - the first silicate containing both Si2O7 and Si3O10 groups: synthesis, crystal chemistry and topology European Journal of Mineralogy, 2013, 25, 509-517
9017213	CIF	Al Cs0.02 K0.83 Na0.15 O8 Si3	C 1 2/m 1	8.5497; 13.0216; 7.1843 90; 115.988; 90	718.959	Angel, R. J.; Ross, N. L.; Zhao, J.; Sochalski-Kolbus L; Kruger, H.; Schmidt, B. C. Structural controls on the anisotropy of tetrahedral frameworks: the example of monoclinic feldspars Note: Sample H002 European Journal of Mineralogy, 2013, 25, 597-614
9017214	CIF	Al K0.93 Na0.07 O8 Si3	C 1 2/m 1	8.5739; 12.9874; 7.2018 90; 116.042; 90	720.521	Angel, R. J.; Ross, N. L.; Zhao, J.; Sochalski-Kolbus L; Kruger, H.; Schmidt, B. C. Structural controls on the anisotropy of tetrahedral frameworks: the example of monoclinic feldspars Note: Sample H003 European Journal of Mineralogy, 2013, 25, 597-614
9017215	CIF	Al K0.92 Na0.08 O8 Si3	C 1 2/m 1	8.5739; 12.9874; 7.2018 90; 116.042; 90	720.521	Angel, R. J.; Ross, N. L.; Zhao, J.; Sochalski-Kolbus L; Kruger, H.; Schmidt, B. C. Structural controls on the anisotropy of tetrahedral frameworks: the example of monoclinic feldspars Note: Gemini RT Data, Sample H003 European Journal of Mineralogy, 2013, 25, 597-614
9017216	CIF	Al K0.92 Na0.08 O8 Si3	C 1 2/m 1	8.575; 12.984; 7.2008 90; 116.028; 90	720.41	Angel, R. J.; Ross, N. L.; Zhao, J.; Sochalski-Kolbus L; Kruger, H.; Schmidt, B. C. Structural controls on the anisotropy of tetrahedral frameworks: the example of monoclinic feldspars Note: T = 293 K, Sample H003_RTend European Journal of Mineralogy, 2013, 25, 597-614
9017217	CIF	Al K0.92 Na0.08 O8 Si3	C 1 2/m 1	8.5752; 12.986; 7.2013 90; 116.023; 90	720.619	Angel, R. J.; Ross, N. L.; Zhao, J.; Sochalski-Kolbus L; Kruger, H.; Schmidt, B. C. Structural controls on the anisotropy of tetrahedral frameworks: the example of monoclinic feldspars Note: T = 293 K, Sample H003_RT European Journal of Mineralogy, 2013, 25, 597-614
9017218	CIF	Al K0.92 Na0.08 O8 Si3	C 1 2/m 1	8.6159; 12.9806; 7.1991 90; 115.956; 90	723.93	Angel, R. J.; Ross, N. L.; Zhao, J.; Sochalski-Kolbus L; Kruger, H.; Schmidt, B. C. Structural controls on the anisotropy of tetrahedral frameworks: the example of monoclinic feldspars Note: T = 600 K, Sample H003 European Journal of Mineralogy, 2013, 25, 597-614
9017219	CIF	Al K0.92 Na0.08 O8 Si3	C 1 2/m 1	8.6609; 12.977; 7.2003 90; 115.876; 90	728.124	Angel, R. J.; Ross, N. L.; Zhao, J.; Sochalski-Kolbus L; Kruger, H.; Schmidt, B. C. Structural controls on the anisotropy of tetrahedral frameworks: the example of monoclinic feldspars Note: T = 900 K, Sample H003 European Journal of Mineralogy, 2013, 25, 597-614
9017220	CIF	Al K0.92 Na0.08 O8 Si3	C 1 2/m 1	8.6849; 12.9747; 7.203 90; 115.819; 90	730.638	Angel, R. J.; Ross, N. L.; Zhao, J.; Sochalski-Kolbus L; Kruger, H.; Schmidt, B. C. Structural controls on the anisotropy of tetrahedral frameworks: the example of monoclinic feldspars Note: T = 1075 K, Sample H003 European Journal of Mineralogy, 2013, 25, 597-614
9017221	CIF	Al1.04 Ba0.02 K0.4 Na0.58 O8 Si2.96	C 1 2/m 1	8.3463; 12.9877; 7.1683 90; 116.18; 90	697.324	Angel, R. J.; Ross, N. L.; Zhao, J.; Sochalski-Kolbus L; Kruger, H.; Schmidt, B. C. Structural controls on the anisotropy of tetrahedral frameworks: the example of monoclinic feldspars Note: Sample San40, cation-exchanged sanidine European Journal of Mineralogy, 2013, 25, 597-614
9017222	CIF	Al Ba0.02 K0.98 O8 Si3	C 1 2/m 1	8.6032; 13.0237; 7.1885 90; 115.994; 90	723.961	Angel, R. J.; Ross, N. L.; Zhao, J.; Sochalski-Kolbus L; Kruger, H.; Schmidt, B. C. Structural controls on the anisotropy of tetrahedral frameworks: the example of monoclinic feldspars Note: Sample San100 European Journal of Mineralogy, 2013, 25, 597-614
9017223	CIF	Al3.1 Ca2.5 Cl1.9 F2.1 Fe0.3 K6.5 Mg0.1 Na1.6 O29 Si9.6	P m m n :2	7.0618; 38.42; 6.5734 90; 90; 90	1783.46	Sharygin, V. V.; Pekov, I. V.; Zubkova, N. V.; Khomyakov, A. P.; Stoppa, F.; Pushcharovsky, D. Y. Umbrianite, K7Na2Ca2[Al3Si10O29]F2Cl2, a new mineral species from melilitolite of the Pian di Celle volcano, Umbria, Italy European Journal of Mineralogy, 2013, 25, 655-669
9017224	CIF	Al0.38 As3 Ca0.73 Cu0.4 Fe0.9 K0.3 Mn0.13 Na1.69 O12 Zn0.32	C 1 2/c 1	12.64; 13.007; 6.7 90; 113.828; 90	1007.64	Krivovichev, S. V.; Vergasova, L. P.; Filatov, S. K.; rybin D S; Britvin, S. N.; Ananiev, V. V. Hatertite, Na2(Ca,Na)(Fe3+,Cu)2(AsO4)3, a new alluaudite-group mineral from Tolbachik fumaroles, Kamchatka peninsula, Russia European Journal of Mineralogy, 2013, 25, 683-691
9017225	CIF	As Cu5 H8 O15	P m n 21	3.0113; 14.259; 14.932 90; 90; 90	641.152	Mills, S. J.; Kampf, A. R.; McDonald, A. M.; Bindi, L.; Christy, A. G.; Kolitsch, U.; Favreau, G. The crystal structure of parnauite: a copper arsenate-sulphate with translational disorder of structural rods European Journal of Mineralogy, 2013, 25, 693-704
9017226	CIF	As0.5 Cu2.5 H2.15 O6.575	P m n 21	3.0088; 14.212; 14.89 90; 90; 90	636.712	Mills, S. J.; Kampf, A. R.; McDonald, A. M.; Bindi, L.; Christy, A. G.; Kolitsch, U.; Favreau, G. The crystal structure of parnauite: a copper arsenate-sulphate with translational disorder of structural rods European Journal of Mineralogy, 2013, 25, 693-704
9017227	CIF	As Cu4.5 O15.25 S0.5	P 1 1 21	6.02; 13.99; 15.42 90; 90; 90.01	1298.67	Mills, S. J.; Kampf, A. R.; McDonald, A. M.; Bindi, L.; Christy, A. G.; Kolitsch, U.; Favreau, G. The crystal structure of parnauite: a copper arsenate-sulphate with translational disorder of structural rods Note: theoretical data European Journal of Mineralogy, 2013, 25, 693-704
9017228	CIF	Ba0.5 Cu O10 Si4 Sr0.5	P 4/n c c :2	7.2958; 7.2958; 15.396 90; 90; 90	819.509	Knight, K. S.; Marshall, W. G.; Henderson, C. M. B.; Chamberlain, A. A. Equation of state and a high-pressure structural phase transition in the gillespite-structured phase Ba0.5Sr0.5CuSi4O10 Note: P = 4.13 GPa European Journal of Mineralogy, 2013, 25, 909-917
9017229	CIF	Ba0.5 Cu O10 Si4 Sr0.5	P 4 21 2 (a-1/4,b+1/4,c)	7.2623; 7.2623; 15.252 90; 90; 90	804.406	Knight, K. S.; Marshall, W. G.; Henderson, C. M. B.; Chamberlain, A. A. Equation of state and a high-pressure structural phase transition in the gillespite-structured phase Ba0.5Sr0.5CuSi4O10 Note: P = 4.77 GPa European Journal of Mineralogy, 2013, 25, 909-917
9017230	CIF	Pb5.38 S15.5 Sb6.62	P -1	4.1192; 17.4167; 19.1664 96.127; 90.015; 91.229	1366.88	Orlandi, P.; Biagioni, C.; Moelo, Y.; Bonaccorsi, E. Lead-antimony sulfosalts from Tuscany (Italy). XIV. Disulfodadsonite, Pb11Sb13S30(S2)0.5, a new mineral from the Ceragiola marble quarry, Apuan Alps: occurrence and crystal structure European Journal of Mineralogy, 2013, 25, 1005-1016
9017231	CIF	Al0.16 Ca0.6 Ce0.3 Fe0.68 La0.1 Mn1.18 Nb1.54 Nd0.1 O14 Th0.28 Ti1.3 Y0.2 Zr1.56	C 1 2/c 1	7.3119; 14.179; 10.17 90; 90.072; 90	1054.38	Chukanov, N. V.; Krivovichev, S. V.; Pakhomova, A. S.; Pekov, I. V.; Schafer, C.; Vigasina, M. F.; Van, K. V. Laachite, (Ca,Mn)2Zr2Nb2TiFeO14, a new zirconolite-related mineral from the Eifel volcanic region, Germany European Journal of Mineralogy, 2011, 26, 103-111
9017232	CIF	Ba0.507 Fe0.508 Mn3.492 O8	P 1 2/n 1	10.0001; 5.7465; 9.8076 90; 90.713; 90	563.556	Biagioni, C.; Capalbo, C.; Lezzerini, M.; Pasero, M. Ferrihollandite, BaMn4+6Fe3+2O16, from Apuan Alps, Tuscany, Italy: description and crystal structure European Journal of Mineralogy, 2014, 26, 171-178
9017233	CIF	C H2 Fe2 O5	P 1 21/a 1	12.5; 9.5; 3.2 90; 97.6; 90	376.662	Pignatelli, I.; Mugnaioli, E.; Mosser-Ruck R; Barres, O.; Kolb, U.; Michau, N. A multi-technique, micrometer- to atomic-scale description of a synthetic analogue of chukanovite, Fe2(CO3)(OH)2 European Journal of Mineralogy, 2014, 26, 221-229
9017234	CIF	Al5.7 B3 Ca0.06 Cr0.72 Fe0.18 H3.96 Mg2.52 Na0.64 O31 Si5.88	R 3 m :H	15.926; 15.926; 7.21 90; 90; 120	1583.72	Vereshchagin, O. S.; Rozhdestvenskaya, I. V.; Frank-Kamenetskaya O V; Zolotarev, A. A. Ion substitutions and structural adjustment in Cr-bearing tourmalines Note: Sample 1 European Journal of Mineralogy, 2014, 26, 309-321
9017235	CIF	Al5.91 B3 Ca0.02 Cr0.72 Fe0.09 H3.68 K0.01 Mg2.34 Na0.76 O31 Si5.94	R 3 m :H	15.933; 15.933; 7.213 90; 90; 120	1585.78	Vereshchagin, O. S.; Rozhdestvenskaya, I. V.; Frank-Kamenetskaya O V; Zolotarev, A. A. Ion substitutions and structural adjustment in Cr-bearing tourmalines Note: Sample 2 European Journal of Mineralogy, 2014, 26, 309-321
9017236	CIF	Al5.85 B3 Ca0.13 Cr0.81 Fe0.09 H3.4 Mg2.25 Na0.63 O31 Si6	R 3 m :H	15.933; 15.933; 7.213 90; 90; 120	1585.78	Vereshchagin, O. S.; Rozhdestvenskaya, I. V.; Frank-Kamenetskaya O V; Zolotarev, A. A. Ion substitutions and structural adjustment in Cr-bearing tourmalines Note: Sample 3 European Journal of Mineralogy, 2014, 26, 309-321
9017237	CIF	Al6.15 B3 Ca0.41 Cr0.18 H3.56 Mg2.79 Na0.43 O31 Si5.88	R 3 m :H	15.921; 15.921; 7.194 90; 90; 120	1579.22	Vereshchagin, O. S.; Rozhdestvenskaya, I. V.; Frank-Kamenetskaya O V; Zolotarev, A. A. Ion substitutions and structural adjustment in Cr-bearing tourmalines Note: Sample 4 European Journal of Mineralogy, 2014, 26, 309-321
9017238	CIF	Al0.036 Ca0.026 Ce0.101 Cr1.62 Fe5.42 La0.176 Mn0.072 Na0.03 Nb0.018 O38 Pb0.105 Sn0.018 Sr0.533 Ti12.42 U0.407 V0.18 Y0.205	R -3 :H	10.3719; 10.3719; 20.8752 90; 90; 120	1944.81	Biagioni, C.; Orlandi, P.; Pasero, M.; Nestola, F.; Bindi, L. Mapiquiroite, (Sr,Pb)(U,Y)Fe2(Ti,Fe3+)18O38, a new member of the crichtonite group from the Apuan Alps, Tuscany, Italy European Journal of Mineralogy, 2014, 26, 427-437
9017239	CIF	Al0.036 Ca0.014 Ce0.021 Cr0.018 Fe6.682 La0.009 Mn0.005 Na0.019 Nb0.036 O38 Pb0.248 Sn18 Sr0.312 Ti12.078 U0.858 V0.378 Y0.07 Zn0.304	R -3 :H	10.3854; 10.3854; 20.8942 90; 90; 120	1951.65	Biagioni, C.; Orlandi, P.; Pasero, M.; Nestola, F.; Bindi, L. Mapiquiroite, (Sr,Pb)(U,Y)Fe2(Ti,Fe3+)18O38, a new member of the crichtonite group from the Apuan Alps, Tuscany, Italy European Journal of Mineralogy, 2014, 26, 427-437
9017240	CIF	Cl6 Cu7 O8 Se2	P 1 21/c 1	10.958; 14.483; 10.494 90; 113.61; 90	1526.04	Vergasova, L. P.; Semenova, T. F.; Krivovichev, S. V.; Filatov, S. K.; Zolotarev, A. A.; Ananiev, V. V. Nicksobolevite, Cu7(SeO3)2O2Cl6, a new complex copper oxoselenite chloride from Tolbachik fumaroles, Kamchatka peninsula, Russia European Journal of Mineralogy, 2014, 26, 439-449
9017241	CIF	H28 Mn4 Nb6 O33	C 1 2/m 1	15.3444; 9.4158; 11.2858 90; 118.632; 90	1431.18	Friis, H.; Larsen, A. O.; Kampf, A. R.; Evans, R. J.; Selbekk; Sanchez, A. A.; Kihle, J. Peterandresenite, Mn4Nb6O19*14H2O, a new mineral containing the Lindqvist ion from a syenite pegmatite of the Larvik Plutonic Complex, southern Norway European Journal of Mineralogy, 2014, 26, 567-576
9017242	CIF	As9 Fe9.508 H120 O104 Sb3	P 63/m	16.0916; 16.0916; 21.7127 90; 90; 120	4869.04	Pekov, I. V.; Zubkova, N. V.; Gottlicher, J.; Yapaskurt, V. O.; Chukanov, N. V.; Lykova, I. S.; Belakovskiy, D. I.; Jensen, M. C.; Leising, J. F.; Nikischer, A. J.; Pushcharovsky, D. Y. Whitecapsite, a new hydrous iron and trivalent antimony arsenate mineral from the White Caps mine, Nevada, USA Note: Not all H atoms could be located European Journal of Mineralogy, 2014, 26, 577-587
9017243	CIF	Al0.3 Ca0.35 Fe1.45 Mg1.15 Na0.15 O12 P0.09 Ti0.15 V2.91	P -1	8.1758; 9.8292; 6.694 105.041; 102.04; 106.025	476.024	Pekov, I. V.; Zubkova, N. V.; Yapaskurt, V. O.; Kartashov, P. M.; Polekhovsky, Y. S.; Murashko, M. N.; Pushcharovsky, D. Y. Koksharovite, CaMg2Fe3+4(VO4)6, and grigorievite, Cu3Fe3+2Al2(VO4)6, two new howardevansite-group minerals from volcanic exhalations European Journal of Mineralogy, 2014, 26, 667-677
9017244	CIF	Al2.2 Ca0.2 Cu1.99 Fe1.6 Mg0.64 O24 P0.06 Ti0.2 V5.94	P -1	8.0217; 9.6858; 6.5475 103.645; 102.369; 106.281	452.598	Pekov, I. V.; Zubkova, N. V.; Yapaskurt, V. O.; Kartashov, P. M.; Polekhovsky, Y. S.; Murashko, M. N.; Pushcharovsky, D. Y. Koksharovite, CaMg2Fe3+4(VO4)6, and grigorievite, Cu3Fe3+2Al2(VO4)6, two new howardevansite-group minerals from volcanic exhalations European Journal of Mineralogy, 2014, 26, 667-677
9017245	CIF	Bi0.9 Ca0.17 Cu5.81 H3 O18 Pb0.95 Se4	P 4/n :2	9.86; 9.86; 9.7 90; 90; 90	943.03	Mills, S. J.; Kampf, A. R.; Christy, A. G.; Housley, R. M.; Thorne, B.; Chen, Y. S.; Steele, I. M. Favreauite, a new selenite mineral from the El Dragon mine, Bolivia Note: T = 100 K European Journal of Mineralogy, 2014, 26, 771-781
9017246	CIF	Ca0.25 Ce0.18 Dy0.1 Er0.08 Fe0.09 Gd0.07 La0.07 Mn0.61 Na0.1 Nd0.09 O28 Pr0.02 Si12 Sm0.03 Y1.17 Yb0.06	I b a m	7.5549; 15.2342; 19.6418 90; 90; 90	2260.63	Kampf, A. R.; Housley, R. M. Chiappinoite-(Y), Y2Mn(Si3O7)4, a new layer silicate found in peralkaline syenitic ejecta from the Agua de Pau volcano, Azores European Journal of Mineralogy, 2015, 27, 91-97
9017247	CIF	Al6.423 Ca6 Cl1.191 Fe0.388 H3.618 O17.809 Si0.189	I -4 3 d	12.0285; 12.0285; 12.0285 90; 90; 90	1740.34	Galuskin, E. V.; Galuskina, I. O.; Kusz, J.; Gfeller, F.; Armbruster, T.; Bailau, R.; Dulski, M.; Gazeev, V. M.; Pertsev, N. N.; Zadov, A. E.; Dzierzanowski, P. Mayenite supergroup, part II: Chlorkyuygenite from Upper Chegem, Northern Caucasus, Kabardino-Balkaria, Russia, a new microporous mineral with "zeolitic" H2O European Journal of Mineralogy, 2015, 27, 113-122
9017248	CIF	Al6.664 Ca6 F0.947 Fe0.224 H3.958 O18.053 Si0.112	I -4 3 d	11.966; 11.966; 11.966 90; 90; 90	1713.35	Galuskin, E. V.; Gfeller, F.; Armbruster, T.; Galuskina, I. O.; Vapnik, Y.; Dulski, M.; Murashko, M.; Dzierzanowski, P.; Sharygin, V. V.; Krivovichev, S. V.; Wirth, R. Mayenite supergroup, part III: fluormayenite, Ca12Al14O32[[]4F2], and fluorkyuygenite, Ca12Al14O32[(H2O)4F2], two new minerals from pyrometamorphic rocks of the Hatrurim Complex, South Levant European Journal of Mineralogy, 2015, 27, 123-136
9017249	CIF	Al6.838 Ca5.981 F1.053 Fe0.135 H1.053 Mg0.02 Na0.019 O16.593	I -4 3 d	11.9894; 11.9894; 11.9894 90; 90; 90	1723.43	Galuskin, E. V.; Gfeller, F.; Armbruster, T.; Galuskina, I. O.; Vapnik, Y.; Dulski, M.; Murashko, M.; Dzierzanowski, P.; Sharygin, V. V.; Krivovichev, S. V.; Wirth, R. Mayenite supergroup, part III: fluormayenite, Ca12Al14O32[[]4F2], and fluorkyuygenite, Ca12Al14O32[(H2O)4F2], two new minerals from pyrometamorphic rocks of the Hatrurim Complex, South Levant European Journal of Mineralogy, 2015, 27, 123-136
9017250	CIF	Cl6.951 Cu0.14 K2.949 Mg0.09 Rb0.03 Zn1.84	P -1	6.7737; 10.5715; 11.073 117.93; 106.909; 90.389	660.609	Pekov, I. V.; Zubkova, N. V.; Yapaskurt, V. O.; Lykova, I. S.; Belakovskiy, D. I.; Vigasina, M. F.; Sidorov, E. G.; Britvin, S. N.; Pushcharovsky, D. Y. New zinc and potassium chlorides from fumaroles of the Tolbachik volcano, Kamchatka, Russia: mineral data and crystal chemistry. I. Mellizinkalite, K3Zn2Cl7 European Journal of Mineralogy, 2015, 27, 247-253
9017251	CIF	Al2 Ca0.03 H14 Mn0.97 O16 P2	P -1	10.049; 10.205; 6.083 91.79; 99.7; 98.02	607.921	Mills, S. J.; Grey, I. E.; Kampf, A. R.; Birch, W. D.; Macrae, C. M.; Smith, J. B.; Keck, E. Kayrobertsonite, MnAl2(PO4)2(OH)2*6H2O, a new phosphate mineral related to nordgauite Note: T = 100 K European Journal of Mineralogy, 2016, 28, 649-654
9017252	CIF	Al1.76 Fe2.24 H44 Mg Mn4 O56 P8 Zn4	I 1 2/m 1	25.333; 6.299; 15.161 90; 90.03; 90	2419.28	Mills, S. J.; Grey, I. E.; Kampf, A. R.; Macrae, C. M.; Smith, J. B.; Davidson, C. J.; Glenn, A. M. Ferraioloite, MgMn2+4(Fe2+0.5Al3+0.5)4Zn4(PO4)8(OH)4(H2O)20, a new secondary phosphate mineral from the Foote mine, USA European Journal of Mineralogy, 2016, 28, 655-661
9017253	CIF	Fe H11 O10 S	R -3 :H	24.199; 24.199; 7.6476 90; 90; 120	3878.38	Ventruti, G.; Ventura, G. D.; Bellatreccia, F.; Lacalamita, M.; Schingaro, E. Hydrogen bond system and vibrational spectroscopy of the iron sulfate fibroferrite, Fe(OH)SO4*5H2O European Journal of Mineralogy, 2016, 28, 943-952
9017254	CIF	Al0.01 Ca0.7 Fe3.23 H18 Mg1.33 Mn0.59 Na0.17 O26 P4	P 1 2/a 1	14.975; 7.1645; 9.928 90; 110.65; 90	996.725	Elliott, P. Jahnsite-(CaFeMg), a new mineral from Tom's quarry, South Australia: description and crystal structure European Journal of Mineralogy, 2016, 28, 991-996
9017255	CIF	Fe2.44 H18 Mg0.06 Mn1.2 O23 P3 Zn1.166	P m a b	11.044; 25.431; 6.412 90; 90; 90	1800.87	Grey, I. E.; Kampf, A. R.; Keck, E.; MacRae, C. M.; Cashion, J. D.; Gozukara, Y. Crystal chemistry of schoonerite-group minerals Note: sample ICG-14, T = 100 K European Journal of Mineralogy, 2018, 30, 621-634
9017256	CIF	As2.86 Ca0.708 Fe3 Mn0.652 O19.928 P1.684	I m m a	26.188; 7.36; 10.367 90; 90; 90	1998.17	Grey, I. E.; Mumme, W. G.; Hochleitner, R. Trimeric As3+3O6 clusters in walentaite: crystal structure and revised formula European Journal of Mineralogy, 2019, 31, 111-116