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COD ID	Links	Formula	Space group	Cell parameters	Cell volume	Bibliography
9003446	CIF	Al1.28 Ba0.03 F0.18 Fe0.82 H1.72 K0.91 Mg2.18 Na0.02 O11.82 Si2.72	C 1 2/m 1	5.291; 9.16; 9.9 90; 100.3; 90	472.077	Comodi, P.; Fumagalli, P.; Montagnoli, M.; Zanazzi, P. F. A single-crystal study on the pressure behavior of phlogopite and petrological implications P = 3.2 GPa American Mineralogist, 2004, 89, 647-653
9003447	CIF	Al1.28 Ba0.03 F0.18 Fe0.82 H1.72 K0.91 Mg2.18 Na0.02 O11.82 Si2.72	C 1 2/m 1	5.271; 9.13; 9.78 90; 100.3; 90	463.07	Comodi, P.; Fumagalli, P.; Montagnoli, M.; Zanazzi, P. F. A single-crystal study on the pressure behavior of phlogopite and petrological implications P = 5.0 GPa American Mineralogist, 2004, 89, 647-653
9003448	CIF	Al1.28 Ba0.03 F0.18 Fe0.82 H1.72 K0.91 Mg2.18 Na0.02 O11.82 Si2.72	C 1 2/m 1	5.256; 9.105; 9.71 90; 100.4; 90	457.047	Comodi, P.; Fumagalli, P.; Montagnoli, M.; Zanazzi, P. F. A single-crystal study on the pressure behavior of phlogopite and petrological implications P = 6.0 GPa American Mineralogist, 2004, 89, 647-653
9003449	CIF	As0.975 S3 Sb1.025	P 1 21/a 1	11.949; 9.028; 10.13 90; 116.15; 90	980.926	Kyono, A.; Kimata, M. Structural reinvestigation of getchellite As0.98Sb1.02S3.00 American Mineralogist, 2004, 89, 696-700
9003450	CIF	B Ca H O5 Si	P 1 21/c 1	4.85; 7.627; 9.659 90; 90.255; 90	357.292	Perchiazzi, N.; Gualtieri, A. F.; Merlino, S.; Kampf, A. R. The atomic structure of bakerite and its relationship to datolite Sample: #45837, single crystal data American Mineralogist, 2004, 89, 767-776
9003451	CIF	B1.25 Ca H1.25 O5 Si0.75	P 1 21/c 1	4.8014; 7.578; 9.5419 90; 90.434; 90	347.172	Perchiazzi, N.; Gualtieri, A. F.; Merlino, S.; Kampf, A. R. The atomic structure of bakerite and its relationship to datolite Sample: Refinement of the conventional X-ray data for sample #92735 American Mineralogist, 2004, 89, 767-776
9003452	CIF	B1.25 Ca H1.25 O5 Si0.75	P 1 21/c 1	4.8005; 7.5788; 9.5432 90; 90.437; 90	347.191	Perchiazzi, N.; Gualtieri, A. F.; Merlino, S.; Kampf, A. R. The atomic structure of bakerite and its relationship to datolite Sample: Refinement of the synchrotron data for sample #92735 American Mineralogist, 2004, 89, 767-776
9003453	CIF	B1.25 Ca H1.25 O5 Si0.75	P 1 21/c 1	4.7967; 7.5711; 9.5321 90; 90.427; 90	346.161	Perchiazzi, N.; Gualtieri, A. F.; Merlino, S.; Kampf, A. R. The atomic structure of bakerite and its relationship to datolite Sample: Refinement of the neutron data (RT) for sample #92735 American Mineralogist, 2004, 89, 767-776
9003454	CIF	B1.25 Ca H1.25 O5 Si0.75	P 1 21/c 1	4.7892; 7.5644; 9.5362 90; 90.476; 90	345.46	Perchiazzi, N.; Gualtieri, A. F.; Merlino, S.; Kampf, A. R. The atomic structure of bakerite and its relationship to datolite Sample: Refinement of the neutron data (LT) for sample #92735 American Mineralogist, 2004, 89, 767-776
9003455	CIF	B1.25 Ca H1.25 O5 Si0.75	P 1 21/c 1	4.80042; 7.57864; 9.5426 90; 90.435; 90	347.156	Perchiazzi, N.; Gualtieri, A. F.; Merlino, S.; Kampf, A. R. The atomic structure of bakerite and its relationship to datolite Sample: Combined refinement American Mineralogist, 2004, 89, 767-776
9003456	CIF	Mg O3 Si	P b n m	4.778; 4.9298; 6.899 90; 90; 90	162.503	Dobson, D. P.; Jacobsen, S. D. The flux growth of magnesium silicate perovskite single crystals American Mineralogist, 2004, 89, 807-811
9003457	CIF	Al0.1 Ca0.06 F0.47 Fe2.63 H1.51 K0.125 Li1.66 Mg1.35 Mn0.13 Na1.376 O23.51 Si8 Ti0.06 Zn0.31	C 1 2/m 1	9.535; 17.876; 5.294 90; 102.54; 90	880.824	Oberti, R.; Camara, F.; Caballero, J. M. Ferri-ottoliniite and ferriwhittakerite, two new end-members of the new Group 5 for monoclinic amphiboles American Mineralogist, 2004, 89, 888-893
9003458	CIF	Al0.1 Ca0.11 F0.7 Fe2.06 H1.3 K0.232 Li1.35 Mg1.47 Mn0.12 Na2.411 O23.3 Si8 Ti0.12 Zn0.4	C 1 2/m 1	9.712; 17.851; 5.297 90; 103.63; 90	892.473	Oberti, R.; Camara, F.; Caballero, J. M. Ferri-ottoliniite and ferriwhittakerite, two new end-members of the new Group 5 for monoclinic amphiboles American Mineralogist, 2004, 89, 888-893
9003459	CIF	S3 Sb2	P n m a	11.282; 3.8296; 11.225 90; 90; 90	484.982	Kyono, A.; Kimata, M. Structural variations induced by difference of the inert pair effect in the stibnite-bismuthinite solid solution series (Sb,Bi)2S3 Sample #1 American Mineralogist, 2004, 89, 932-940
9003460	CIF	S3 Sb2	P n m a	11.311; 3.8389; 11.223 90; 90; 90	487.323	Kyono, A.; Kimata, M. Structural variations induced by difference of the inert pair effect in the stibnite-bismuthinite solid solution series (Sb,Bi)2S3 Sample #2 American Mineralogist, 2004, 89, 932-940
9003461	CIF	S3 Sb2	P n m a	11.2845; 3.822; 11.203 90; 90; 90	483.178	Kyono, A.; Kimata, M. Structural variations induced by difference of the inert pair effect in the stibnite-bismuthinite solid solution series (Sb,Bi)2S3 Sample #3 American Mineralogist, 2004, 89, 932-940
9003462	CIF	S3 Sb2	P n m a	11.3197; 3.8332; 11.233 90; 90; 90	487.407	Kyono, A.; Kimata, M. Structural variations induced by difference of the inert pair effect in the stibnite-bismuthinite solid solution series (Sb,Bi)2S3 Sample #4 American Mineralogist, 2004, 89, 932-940
9003463	CIF	Bi0.064 S3 Sb1.936	P n m a	11.3122; 3.8428; 11.221 90; 90; 90	487.783	Kyono, A.; Kimata, M. Structural variations induced by difference of the inert pair effect in the stibnite-bismuthinite solid solution series (Sb,Bi)2S3 Sample: Sb1.935Bi.065S3 American Mineralogist, 2004, 89, 932-940
9003464	CIF	Bi0.364 S3 Sb1.636	P n m a	11.274; 3.8739; 11.16 90; 90; 90	487.406	Kyono, A.; Kimata, M. Structural variations induced by difference of the inert pair effect in the stibnite-bismuthinite solid solution series (Sb,Bi)2S3 Sample: Sb1.637Bi.363S3 American Mineralogist, 2004, 89, 932-940
9003465	CIF	Bi0.516 S3 Sb1.484	P n m a	11.318; 3.883; 11.226 90; 90; 90	493.358	Kyono, A.; Kimata, M. Structural variations induced by difference of the inert pair effect in the stibnite-bismuthinite solid solution series (Sb,Bi)2S3 Sample: Sb1.483Bi.517S3 American Mineralogist, 2004, 89, 932-940
9003466	CIF	Bi0.536 S3 Sb1.464	P n m a	11.309; 3.871; 11.1876 90; 90; 90	489.761	Kyono, A.; Kimata, M. Structural variations induced by difference of the inert pair effect in the stibnite-bismuthinite solid solution series (Sb,Bi)2S3 Sample: Sb1.463Bi.537S3 American Mineralogist, 2004, 89, 932-940
9003467	CIF	Bi0.573 S3 Sb1.427	P n m a	11.318; 3.8872; 11.228 90; 90; 90	493.98	Kyono, A.; Kimata, M. Structural variations induced by difference of the inert pair effect in the stibnite-bismuthinite solid solution series (Sb,Bi)2S3 Sample: Sb1.426Bi.574S3 American Mineralogist, 2004, 89, 932-940
9003468	CIF	Bi1.09 S3 Sb0.91	P n m a	11.256; 3.8966; 11.205 90; 90; 90	491.453	Kyono, A.; Kimata, M. Structural variations induced by difference of the inert pair effect in the stibnite-bismuthinite solid solution series (Sb,Bi)2S3 Sample: Sb.910Bi1.090S3 American Mineralogist, 2004, 89, 932-940
9003469	CIF	Bi1.612 S3 Sb0.388	P n m a	11.336; 3.9562; 11.186 90; 90; 90	501.664	Kyono, A.; Kimata, M. Structural variations induced by difference of the inert pair effect in the stibnite-bismuthinite solid solution series (Sb,Bi)2S3 Sample: Sb0.387Bi1.613S3 American Mineralogist, 2004, 89, 932-940
9003470	CIF	Bi1.638 S3 Sb0.362	P n m a	11.31; 3.9526; 11.119 90; 90; 90	497.063	Kyono, A.; Kimata, M. Structural variations induced by difference of the inert pair effect in the stibnite-bismuthinite solid solution series (Sb,Bi)2S3 Sample: Sb0.362Bi1.638S3 American Mineralogist, 2004, 89, 932-940
9003471	CIF	Bi1.68 S3 Sb0.32	P n m a	11.318; 3.9547; 11.1631 90; 90; 90	499.652	Kyono, A.; Kimata, M. Structural variations induced by difference of the inert pair effect in the stibnite-bismuthinite solid solution series (Sb,Bi)2S3 Sample: Sb0.320Bi1.680S3 American Mineralogist, 2004, 89, 932-940
9003472	CIF	Bi2 S3	P n m a	11.316; 3.9709; 11.178 90; 90; 90	502.28	Kyono, A.; Kimata, M. Structural variations induced by difference of the inert pair effect in the stibnite-bismuthinite solid solution series (Sb,Bi)2S3 Sample #1 American Mineralogist, 2004, 89, 932-940
9003473	CIF	Bi2 S3	P n m a	11.345; 3.994; 11.193 90; 90; 90	507.176	Kyono, A.; Kimata, M. Structural variations induced by difference of the inert pair effect in the stibnite-bismuthinite solid solution series (Sb,Bi)2S3 Sample #2 American Mineralogist, 2004, 89, 932-940
9003474	CIF	Bi2 S3	P n m a	11.354; 3.9911; 11.188 90; 90; 90	506.984	Kyono, A.; Kimata, M. Structural variations induced by difference of the inert pair effect in the stibnite-bismuthinite solid solution series (Sb,Bi)2S3 Sample #3 American Mineralogist, 2004, 89, 932-940
9003475	CIF	Mn O2	P n m a	9.2734; 2.8638; 4.5219 90; 90; 90	120.089	Post, J. E.; Heaney, P. J. Neutron and synchrotron X-ray diffraction study of the structures and dehydration behaviors of ramsdellite and "groutellite" American Mineralogist, 2004, 89, 969-975
9003476	CIF	Mn O2	P n m a	9.5155; 2.8644; 4.7061 90; 90; 90	128.27	Post, J. E.; Heaney, P. J. Neutron and synchrotron X-ray diffraction study of the structures and dehydration behaviors of ramsdellite and "groutellite" American Mineralogist, 2004, 89, 969-975
9003477	CIF	H6.8 O18 Se2 Sr U3	C 1 2/m 1	17.014; 7.0637; 7.1084 90; 100.544; 90	839.875	Almond, P. M.; Albrecht-Schmitt T E Hydrothermal synthesis and crystal chemistry of the new strontium uranyl selenites, Sr[(UO2)3(SeO3)2O2].4H2O and Sr[(UO2)(SeO3)2].2H2O American Mineralogist, 2004, 89, 976-980
9003478	CIF	O8 Se2 Sr U	P -1	5.6722; 6.7627; 11.2622 104.698; 93.708; 109.489	388.615	Almond, P. M.; Albrecht-Schmitt T E Hydrothermal synthesis and crystal chemistry of the new strontium uranyl selenites, Sr[(UO2)3(SeO3)2O2].4H2O and Sr[(UO2)(SeO3)2].2H2O American Mineralogist, 2004, 89, 976-980
9003479	CIF	Al2 Mg O4	F d -3 m :2	8.0834; 8.0834; 8.0834 90; 90; 90	528.18	Meducin, F.; Redfern, S. A. T.; Le Godec, Y.; Stone, H. J.; Tucker, M. G.; Dove, M. T.; Marshall, W. G. Study of cation order-disorder in MgAl2O4 spinel by in situ neutron diffraction up to 1600 K and 3.2 GPa Sample at T = 273 K and P = 0 GPa, inversion parameter x = .320 American Mineralogist, 2004, 89, 981-986
9003480	CIF	Al2 Mg O4	F d -3 m :2	8.0727; 8.0727; 8.0727 90; 90; 90	526.086	Meducin, F.; Redfern, S. A. T.; Le Godec, Y.; Stone, H. J.; Tucker, M. G.; Dove, M. T.; Marshall, W. G. Study of cation order-disorder in MgAl2O4 spinel by in situ neutron diffraction up to 1600 K and 3.2 GPa Sample at T = 549 K and P = 0.4 GPa, inversion parameter x = .262 American Mineralogist, 2004, 89, 981-986
9003481	CIF	Al2 Mg O4	F d -3 m :2	8.0874; 8.0874; 8.0874 90; 90; 90	528.965	Meducin, F.; Redfern, S. A. T.; Le Godec, Y.; Stone, H. J.; Tucker, M. G.; Dove, M. T.; Marshall, W. G. Study of cation order-disorder in MgAl2O4 spinel by in situ neutron diffraction up to 1600 K and 3.2 GPa Sample at T = 757 K and P = 0.4 GPa, inversion parameter x = .292 American Mineralogist, 2004, 89, 981-986
9003482	CIF	Al2 Mg O4	F d -3 m :2	8.1104; 8.1104; 8.1104 90; 90; 90	533.491	Meducin, F.; Redfern, S. A. T.; Le Godec, Y.; Stone, H. J.; Tucker, M. G.; Dove, M. T.; Marshall, W. G. Study of cation order-disorder in MgAl2O4 spinel by in situ neutron diffraction up to 1600 K and 3.2 GPa Sample at T = 1015 K and P = 1.5 GPa, inversion parameter x = .386 American Mineralogist, 2004, 89, 981-986
9003483	CIF	Al2 Mg O4	F d -3 m :2	8.1274; 8.1274; 8.1274 90; 90; 90	536.852	Meducin, F.; Redfern, S. A. T.; Le Godec, Y.; Stone, H. J.; Tucker, M. G.; Dove, M. T.; Marshall, W. G. Study of cation order-disorder in MgAl2O4 spinel by in situ neutron diffraction up to 1600 K and 3.2 GPa Sample at T = 1202 K and P = 2.0 GPa, inversion parameter x = .453 American Mineralogist, 2004, 89, 981-986
9003484	CIF	Al2 Mg O4	F d -3 m :2	8.135; 8.135; 8.135 90; 90; 90	538.36	Meducin, F.; Redfern, S. A. T.; Le Godec, Y.; Stone, H. J.; Tucker, M. G.; Dove, M. T.; Marshall, W. G. Study of cation order-disorder in MgAl2O4 spinel by in situ neutron diffraction up to 1600 K and 3.2 GPa Sample at T = 1363 K and P = 2.8 GPa, inversion parameter x = .571 American Mineralogist, 2004, 89, 981-986
9003485	CIF	Al2 Mg O4	F d -3 m :2	8.1452; 8.1452; 8.1452 90; 90; 90	540.387	Meducin, F.; Redfern, S. A. T.; Le Godec, Y.; Stone, H. J.; Tucker, M. G.; Dove, M. T.; Marshall, W. G. Study of cation order-disorder in MgAl2O4 spinel by in situ neutron diffraction up to 1600 K and 3.2 GPa Sample at T = 1507 K and P = 3.2 GPa, inversion parameter x = .633 American Mineralogist, 2004, 89, 981-986
9003486	CIF	Al2 Mg O4	F d -3 m :2	8.1171; 8.1171; 8.1171 90; 90; 90	534.814	Meducin, F.; Redfern, S. A. T.; Le Godec, Y.; Stone, H. J.; Tucker, M. G.; Dove, M. T.; Marshall, W. G. Study of cation order-disorder in MgAl2O4 spinel by in situ neutron diffraction up to 1600 K and 3.2 GPa Sample at T = 1058 K and P = 1.9 GPa, inversion parameter x = .524 American Mineralogist, 2004, 89, 981-986
9003487	CIF	Al2 Mg O4	F d -3 m :2	8.105; 8.105; 8.105 90; 90; 90	532.426	Meducin, F.; Redfern, S. A. T.; Le Godec, Y.; Stone, H. J.; Tucker, M. G.; Dove, M. T.; Marshall, W. G. Study of cation order-disorder in MgAl2O4 spinel by in situ neutron diffraction up to 1600 K and 3.2 GPa Sample at T = 887 K and P = 1.7 GPa, inversion parameter x = .509 American Mineralogist, 2004, 89, 981-986
9003488	CIF	Al2 Mg O4	F d -3 m :2	8.08; 8.08; 8.08 90; 90; 90	527.514	Meducin, F.; Redfern, S. A. T.; Le Godec, Y.; Stone, H. J.; Tucker, M. G.; Dove, M. T.; Marshall, W. G. Study of cation order-disorder in MgAl2O4 spinel by in situ neutron diffraction up to 1600 K and 3.2 GPa Sample at T = 381 K and P = 0.5 GPa, inversion parameter x = .365 American Mineralogist, 2004, 89, 981-986
9003489	CIF	Al2.42 H8.448 O30.36 Si9.58	I m m a	20.291; 23.84; 12.807 90; 90; 90	6195.23	Zanardi, S.; Cruciani, G.; Alberti, A.; Galli, E. Dehydration and rehydration process in boggsite: an in-situ X-ray single-crystal study Note: Wat represents an unknown distribution across the Wat sites of [Ca.806,Mg.138,Na.041,K.007,Fe.006,Sr.001,Wat8.06] Note: Reported occupancies are discrepant with reported formula. Sample: BOG-RT, T = 25 C American Mineralogist, 2004, 89, 1033-1042
9003490	CIF	Al2.1 Ca0.67 H4.78 O25.31 Si9.9	I m m a	20.299; 23.746; 12.814 90; 90; 90	6176.6	Zanardi, S.; Cruciani, G.; Alberti, A.; Galli, E. Dehydration and rehydration process in boggsite: an in-situ X-ray single-crystal study Note: Ca represents an unknown distribution across the Ca sites of [Ca.806,Mg.138,Na.041,K.007,Fe.006,Sr.001] Note: Reported occupancies are discrepant with reported formula. Sample: BOG-150, T = 150 C American Mineralogist, 2004, 89, 1033-1042
9003491	CIF	Al2.12 Ca0.971 O24 Si9.88	I m m a	20.053; 23.838; 12.85 90; 90; 90	6142.6	Zanardi, S.; Cruciani, G.; Alberti, A.; Galli, E. Dehydration and rehydration process in boggsite: an in-situ X-ray single-crystal study Note: Ca represents an unknown distribution across the Ca sites of [Ca.806,Mg.138,Na.041,K.007,Fe.006,Sr.001] Note: Reported occupancies are discrepant with reported formula. Sample: BOG-350, T = 350 C American Mineralogist, 2004, 89, 1033-1042
9003492	CIF	Al0.357 Ca0.16 O4 Si1.643	I m m a	20.041; 23.814; 12.869 90; 90; 90	6141.81	Zanardi, S.; Cruciani, G.; Alberti, A.; Galli, E. Dehydration and rehydration process in boggsite: an in-situ X-ray single-crystal study Note: Ca represents an unknown distribution across the Ca sites of [Ca.806,Mg.138,Na.041,K.007,Fe.006,Sr.001] Note: Reported occupancies are discrepant with reported formula. Sample: BOG-500, T = 500 C American Mineralogist, 2004, 89, 1033-1042
9003493	CIF	Al2.14 Ca0.675 H4.78 O25.44 Si9.86	I m m a	20.087; 23.8; 12.805 90; 90; 90	6121.69	Zanardi, S.; Cruciani, G.; Alberti, A.; Galli, E. Dehydration and rehydration process in boggsite: an in-situ X-ray single-crystal study Note: Ca represents an unknown distribution across the Ca sites of [Ca.806,Mg.138,Na.041,K.007,Fe.006,Sr.001] Note: Reported occupancies are discrepant with reported formula. Sample: BOG-150-R, T = 150 C American Mineralogist, 2004, 89, 1033-1042
9003494	CIF	Al2.46 H8.448 O29.182 Si9.54	I m m a	20.295; 23.843; 12.802 90; 90; 90	6194.81	Zanardi, S.; Cruciani, G.; Alberti, A.; Galli, E. Dehydration and rehydration process in boggsite: an in-situ X-ray single-crystal study Note: Ca represents an unknown distribution across the Ca sites of [Ca.806,Mg.138,Na.041,K.007,Fe.006,Sr.001] Note: Reported occupancies are discrepant with reported formula. Sample: BOG-RT-R, T = 25 C American Mineralogist, 2004, 89, 1033-1042
9003495	CIF	Ag Te	P m n b	8.882; 20.1; 4.614 90; 90; 90	823.729	Bindi, L.; Spry, P. G.; Cipriani, C. Empressite, AgTe, from the Empress-Josephine Mine, Colorado, USA: Composition, physical properties, and determination of the crystal structure American Mineralogist, 2004, 89, 1043-1047
9003496	CIF	Al2.54 Ca2 H Mn0.46 O13 Si3	P 1 21/m 1	8.856; 5.6291; 10.148 90; 115.516; 90	456.549	Nagashima, M.; Akasaka, M. An X-ray Rietveld study of piemontite on the join Ca2Al3Si3O12(OH) - Ca2Mn3+3Si3O12(OH) formed by hydrothermal synthesis Sample: q = 0.5, p = 0.5, Synthesis at P=350 MPa, T=500 C American Mineralogist, 2004, 89, 1119-1129
9003497	CIF	Al2.25 Ca2 H Mn0.75 O13 Si3	P 1 21/m 1	8.853; 5.6596; 10.1501 90; 115.511; 90	458.981	Nagashima, M.; Akasaka, M. An X-ray Rietveld study of piemontite on the join Ca2Al3Si3O12(OH) - Ca2Mn3+3Si3O12(OH) formed by hydrothermal synthesis Sample: q = 0.75, p = 0.75, Synthesis at P=200 MPa, T=500 C American Mineralogist, 2004, 89, 1119-1129
9003498	CIF	Al2.26 Ca2 H Mn0.74 O13 Si3	P 1 21/m 1	8.8548; 5.6541; 10.1546 90; 115.514; 90	458.82	Nagashima, M.; Akasaka, M. An X-ray Rietveld study of piemontite on the join Ca2Al3Si3O12(OH) - Ca2Mn3+3Si3O12(OH) formed by hydrothermal synthesis Sample: q = 0.75, p = 0.75, Synthesis at P=350 MPa, T=500 C American Mineralogist, 2004, 89, 1119-1129
9003499	CIF	Al2 Ca2 H Mn O13 Si3	P 1 21/m 1	8.8531; 5.6741; 10.1613 90; 115.519; 90	460.639	Nagashima, M.; Akasaka, M. An X-ray Rietveld study of piemontite on the join Ca2Al3Si3O12(OH) - Ca2Mn3+3Si3O12(OH) formed by hydrothermal synthesis Sample: q = 1.0, p = 1.00, Synthesis at P=200 MPa, T=500 C American Mineralogist, 2004, 89, 1119-1129
9003500	CIF	Al2 Ca2 H Mn O13 Si3	P 1 21/m 1	8.849; 5.667; 10.153 90; 115.499; 90	459.551	Nagashima, M.; Akasaka, M. An X-ray Rietveld study of piemontite on the join Ca2Al3Si3O12(OH) - Ca2Mn3+3Si3O12(OH) formed by hydrothermal synthesis Sample: q = 1.0, p = 1.00, Synthesis at P=350 MPa, T=500 C American Mineralogist, 2004, 89, 1119-1129
9003501	CIF	Al1.96 Ca2 H Mn1.04 O13 Si3	P 1 21/m 1	8.8596; 5.6834; 10.1679 90; 115.503; 90	462.095	Nagashima, M.; Akasaka, M. An X-ray Rietveld study of piemontite on the join Ca2Al3Si3O12(OH) - Ca2Mn3+3Si3O12(OH) formed by hydrothermal synthesis Sample: q = 1.1, p = 1.04, Synthesis at P=200 MPa, T=500 C American Mineralogist, 2004, 89, 1119-1129
9003502	CIF	Al1.97 Ca2 H Mn1.03 O13 Si3	P 1 21/m 1	8.86; 5.6818; 10.167 90; 115.511; 90	461.914	Nagashima, M.; Akasaka, M. An X-ray Rietveld study of piemontite on the join Ca2Al3Si3O12(OH) - Ca2Mn3+3Si3O12(OH) formed by hydrothermal synthesis Sample: q = 1.1, p = 1.03, Synthesis at P=350 MPa, T=500 C American Mineralogist, 2004, 89, 1119-1129
9003503	CIF	Al1.74 Ca2 H Mn1.26 O13 Si3	P 1 21/m 1	8.8589; 5.7017; 10.1802 90; 115.54; 90	463.964	Nagashima, M.; Akasaka, M. An X-ray Rietveld study of piemontite on the join Ca2Al3Si3O12(OH) - Ca2Mn3+3Si3O12(OH) formed by hydrothermal synthesis Sample: q = 1.5, p = 1.26, Synthesis at P=200 MPa, T=500 C American Mineralogist, 2004, 89, 1119-1129
9003504	CIF	Al1.74 Ca2 H Mn1.26 O13 Si3	P 1 21/m 1	8.8625; 5.7006; 10.1822 90; 115.525; 90	464.212	Nagashima, M.; Akasaka, M. An X-ray Rietveld study of piemontite on the join Ca2Al3Si3O12(OH) - Ca2Mn3+3Si3O12(OH) formed by hydrothermal synthesis Sample: q = 1.5, p = 1.25, Synthesis at P=350 MPa, T=500 C American Mineralogist, 2004, 89, 1119-1129
9003505	CIF	Al1.75 Ca2 H Mn1.25 O13 Si3	P 1 21/m 1	8.8591; 5.7039; 10.1827 90; 115.548; 90	464.236	Nagashima, M.; Akasaka, M. An X-ray Rietveld study of piemontite on the join Ca2Al3Si3O12(OH) - Ca2Mn3+3Si3O12(OH) formed by hydrothermal synthesis Sample: q = 1.75, p = 1.26, Synthesis at P=200 MPa, T=500 C American Mineralogist, 2004, 89, 1119-1129
9003506	CIF	Al1.75 Ca2 H Mn1.25 O13 Si3	P 1 21/m 1	8.8581; 5.6949; 10.1771 90; 115.518; 90	463.312	Nagashima, M.; Akasaka, M. An X-ray Rietveld study of piemontite on the join Ca2Al3Si3O12(OH) - Ca2Mn3+3Si3O12(OH) formed by hydrothermal synthesis Sample: q = 1.75, p = 1.25, Synthesis at P=350 MPa, T=500 C American Mineralogist, 2004, 89, 1119-1129
9003507	CIF	H2 Mg2 Na0.193 O6 Si1.333	C 1	5.358; 9.281; 14.574 90; 97.08; 90	719.204	Krivovichev, S. V.; Armbruster, T.; Organova, N. I.; Burns, P. C.; Seredkin, M. V.; Chukanov, N. V. Incorporation of sodium into the chlorite structure: the crystal structure of glagolevite, Na(Mg,Al)6[Si3AlO10](OH,O)8 American Mineralogist, 2004, 89, 1138-1141
9003508	CIF	C2 Ca Mg O6	R -3 :H	4.8072; 4.8072; 16.0048 90; 90; 120	320.306	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 296 K American Mineralogist, 2004, 89, 1142-1147
9003509	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.7924; 4.7924; 15.8119 90; 90; 120	314.5	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 630 K American Mineralogist, 2004, 89, 1142-1147
9003510	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.7918; 4.7918; 15.8283 90; 90; 120	314.747	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 675 K American Mineralogist, 2004, 89, 1142-1147
9003511	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.7917; 4.7917; 15.8816 90; 90; 120	315.794	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 809 K American Mineralogist, 2004, 89, 1142-1147
9003512	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.7925; 4.7925; 15.9312 90; 90; 120	316.886	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 925 K American Mineralogist, 2004, 89, 1142-1147
9003513	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.7938; 4.7938; 15.9652 90; 90; 120	317.735	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 999 K American Mineralogist, 2004, 89, 1142-1147
9003514	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.7941; 4.7941; 15.9868 90; 90; 120	318.205	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 1039 K American Mineralogist, 2004, 89, 1142-1147
9003515	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.7945; 4.7945; 16.0087 90; 90; 120	318.694	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 1074 K American Mineralogist, 2004, 89, 1142-1147
9003516	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.7942; 4.7942; 16.0061 90; 90; 120	318.602	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 1070 K American Mineralogist, 2004, 89, 1142-1147
9003517	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.7944; 4.7944; 16.0212 90; 90; 120	318.929	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 1106 K American Mineralogist, 2004, 89, 1142-1147
9003518	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.7956; 4.7956; 16.0405 90; 90; 120	319.473	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 1142 K American Mineralogist, 2004, 89, 1142-1147
9003519	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.7965; 4.7965; 16.0559 90; 90; 120	319.9	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 1171 K American Mineralogist, 2004, 89, 1142-1147
9003520	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.7985; 4.7985; 16.0815 90; 90; 120	320.677	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 1205 K American Mineralogist, 2004, 89, 1142-1147
9003521	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.8009; 4.8009; 16.1069 90; 90; 120	321.505	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 1234 K American Mineralogist, 2004, 89, 1142-1147
9003522	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.8039; 4.8039; 16.1397 90; 90; 120	322.563	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 1265 K American Mineralogist, 2004, 89, 1142-1147
9003523	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.8035; 4.8035; 16.1468 90; 90; 120	322.651	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 1292 K American Mineralogist, 2004, 89, 1142-1147
9003524	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.8055; 4.8055; 16.1791 90; 90; 120	323.565	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 1320 K American Mineralogist, 2004, 89, 1142-1147
9003525	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.8111; 4.8111; 16.2511 90; 90; 120	325.763	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 1346 K American Mineralogist, 2004, 89, 1142-1147
9003526	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.8084; 4.8084; 16.2802 90; 90; 120	325.98	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 1362 K American Mineralogist, 2004, 89, 1142-1147
9003527	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.809; 4.809; 16.2621 90; 90; 120	325.699	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 1394 K American Mineralogist, 2004, 89, 1142-1147
9003528	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.8089; 4.8089; 16.2901 90; 90; 120	326.247	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 1400 K American Mineralogist, 2004, 89, 1142-1147
9003529	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.8081; 4.8081; 16.2756 90; 90; 120	325.848	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 1443 K American Mineralogist, 2004, 89, 1142-1147
9003530	CIF	C Ca0.5 Mg0.5 O3	R -3 :H	4.8072; 4.8072; 16.3354 90; 90; 120	326.922	Antao, S. M.; Mulder, W. H.; Hassan, I.; Crichton, W. A.; Parise, J. B. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite+magnesite - dolomite reaction boundary Sample: P = 3 GPa, T = 1466 K American Mineralogist, 2004, 89, 1142-1147
9003531	CIF	Al0.393 Cr1.582 Fe0.34 Mg0.59 Mn0.003 Ni0.004 O4 Si0.002 Ti0.004 V0.004	F d -3 m :2	8.2743; 8.2743; 8.2743 90; 90; 90	566.492	Bosi, F.; Andreozzi, G. B.; Ferrini, V.; Lucchesi, S. Behavior of cation vacany in kenotetrahedral Cr-spinels from Albanian eastern belt ophiolites Sample: Tro6f, Provenance is Tropoja massif, Sequence is cumulate American Mineralogist, 2004, 89, 1367-1373
9003532	CIF	Al0.406 Cr1.524 Fe0.396 Mg0.643 Mn0.006 Ni0.002 O4 Ti0.006	F d -3 m :2	8.2991; 8.2991; 8.2991 90; 90; 90	571.601	Bosi, F.; Andreozzi, G. B.; Ferrini, V.; Lucchesi, S. Behavior of cation vacany in kenotetrahedral Cr-spinels from Albanian eastern belt ophiolites Sample: Shb4b, Provenance is Shebenik massif, Sequence is cumulate American Mineralogist, 2004, 89, 1367-1373
9003533	CIF	Al0.552 Cr1.362 Fe0.481 Mg0.586 Mn0.007 Ni0.004 O4 Ti0.006	F d -3 m :2	8.2915; 8.2915; 8.2915 90; 90; 90	570.032	Bosi, F.; Andreozzi, G. B.; Ferrini, V.; Lucchesi, S. Behavior of cation vacany in kenotetrahedral Cr-spinels from Albanian eastern belt ophiolites Sample: Tro4f, Provenance is Tropoja massif, Sequence is tectonite American Mineralogist, 2004, 89, 1367-1373
9003534	CIF	Al0.575 Cr1.346 Fe0.429 Mg0.631 Mn0.006 Ni0.002 O4 Ti0.006 V0.004	F d -3 m :2	8.2864; 8.2864; 8.2864 90; 90; 90	568.981	Bosi, F.; Andreozzi, G. B.; Ferrini, V.; Lucchesi, S. Behavior of cation vacany in kenotetrahedral Cr-spinels from Albanian eastern belt ophiolites Sample: Tro4j, Provenance is Tropoja massif, Sequence is tectonite American Mineralogist, 2004, 89, 1367-1373
9003535	CIF	Al0.364 Cr1.552 Fe0.467 Mg0.597 Mn0.008 O4 Ti0.004 V0.004	F d -3 m :2	8.3133; 8.3133; 8.3133 90; 90; 90	574.54	Bosi, F.; Andreozzi, G. B.; Ferrini, V.; Lucchesi, S. Behavior of cation vacany in kenotetrahedral Cr-spinels from Albanian eastern belt ophiolites Sample: N10a, Provenance is Bulqize, Bulqiza massif, Sequence is tectonite American Mineralogist, 2004, 89, 1367-1373
9003536	CIF	Al0.393 Cr1.5 Fe0.469 Mg0.608 Mn0.009 Ni0.002 O4 Ti0.006	F d -3 m :2	8.3091; 8.3091; 8.3091 90; 90; 90	573.67	Bosi, F.; Andreozzi, G. B.; Ferrini, V.; Lucchesi, S. Behavior of cation vacany in kenotetrahedral Cr-spinels from Albanian eastern belt ophiolites Sample: N7g, Provenance is Bulqize, Bulqiza massif, Sequence is tectonite American Mineralogist, 2004, 89, 1367-1373
9003537	CIF	Al0.368 Cr1.564 Fe0.424 Mg0.624 Mn0.007 O4 Ti0.002	F d -3 m :2	8.3081; 8.3081; 8.3081 90; 90; 90	573.463	Bosi, F.; Andreozzi, G. B.; Ferrini, V.; Lucchesi, S. Behavior of cation vacany in kenotetrahedral Cr-spinels from Albanian eastern belt ophiolites Sample: Thkv1a, Provenance is Thekna, Bulqiza massif, Sequence is tectonite American Mineralogist, 2004, 89, 1367-1373
9003538	CIF	Al0.387 Cr1.552 Fe0.402 Mg0.632 Mn0.006 O4 Ti0.002 V0.004	F d -3 m :2	8.3033; 8.3033; 8.3033 90; 90; 90	572.469	Bosi, F.; Andreozzi, G. B.; Ferrini, V.; Lucchesi, S. Behavior of cation vacany in kenotetrahedral Cr-spinels from Albanian eastern belt ophiolites Sample: Thkv1w, Provenance is Thekna, Bulqiza massif, Sequence is tectonite American Mineralogist, 2004, 89, 1367-1373
9003539	CIF	Al0.422 Cr1.506 Fe0.367 Mg0.643 Mn0.004 Ni0.004 O4 Ti0.004 V0.002	F d -3 m :2	8.2793; 8.2793; 8.2793 90; 90; 90	567.52	Bosi, F.; Andreozzi, G. B.; Ferrini, V.; Lucchesi, S. Behavior of cation vacany in kenotetrahedral Cr-spinels from Albanian eastern belt ophiolites Sample: Shb2m, Provenance is Shebenik massif, Sequence is tectonite American Mineralogist, 2004, 89, 1367-1373
9003540	CIF	Al0.444 Cr1.5 Fe0.378 Mg0.637 Mn0.006 Ni0.004 O4 Si0.001 Ti0.002 V0.004	F d -3 m :2	8.2902; 8.2902; 8.2902 90; 90; 90	569.764	Bosi, F.; Andreozzi, G. B.; Ferrini, V.; Lucchesi, S. Behavior of cation vacany in kenotetrahedral Cr-spinels from Albanian eastern belt ophiolites Sample: Shb4f, Provenance is Shebenik massif, Sequence is cumulate American Mineralogist, 2004, 89, 1367-1373
9003541	CIF	Al0.378 Cr1.536 Fe0.394 Mg0.667 Mn0.007 Ni0.004 O4 Si0.001 Ti0.002 V0.002 Zn0.002	F d -3 m :2	8.3057; 8.3057; 8.3057 90; 90; 90	572.966	Bosi, F.; Andreozzi, G. B.; Ferrini, V.; Lucchesi, S. Behavior of cation vacany in kenotetrahedral Cr-spinels from Albanian eastern belt ophiolites Sample: Thkv2w, Provenance is Thekna, Bulqiza massif, Sequence is tectonite American Mineralogist, 2004, 89, 1367-1373
9003542	CIF	Al0.388 Cr1.548 Fe0.4 Mg0.648 Mn0.006 O4 Si0.001 Ti0.002 V0.002	F d -3 m :2	8.3071; 8.3071; 8.3071 90; 90; 90	573.256	Bosi, F.; Andreozzi, G. B.; Ferrini, V.; Lucchesi, S. Behavior of cation vacany in kenotetrahedral Cr-spinels from Albanian eastern belt ophiolites Sample: N2h, Provenance is Bulqize, Bulqiza massif, Sequence is tectonite American Mineralogist, 2004, 89, 1367-1373
9003543	CIF	Al0.438 Cr1.474 Fe0.384 Mg0.682 Mn0.006 Ni0.004 O4 Si0.002 Ti0.004 V0.002	F d -3 m :2	8.3006; 8.3006; 8.3006 90; 90; 90	571.911	Bosi, F.; Andreozzi, G. B.; Ferrini, V.; Lucchesi, S. Behavior of cation vacany in kenotetrahedral Cr-spinels from Albanian eastern belt ophiolites Sample: Shkm1i, Provenance is Shkalla, Bulqiza massif, Sequence is tectonite American Mineralogist, 2004, 89, 1367-1373
9003544	CIF	Al0.451 Cr1.466 Fe0.414 Mg0.646 Mn0.007 Ni0.004 O4 Ti0.004	F d -3 m :2	8.2982; 8.2982; 8.2982 90; 90; 90	571.415	Bosi, F.; Andreozzi, G. B.; Ferrini, V.; Lucchesi, S. Behavior of cation vacany in kenotetrahedral Cr-spinels from Albanian eastern belt ophiolites Sample: Shkm3g, Provenance is Shkalla, Bulqiza massif, Sequence is tectonite American Mineralogist, 2004, 89, 1367-1373
9003545	CIF	Al0.355 Cr1.55 Fe0.369 Mg0.704 Mn0.006 Ni0.004 O4 Si0.001 Ti0.004 V0.002	F d -3 m :2	8.3101; 8.3101; 8.3101 90; 90; 90	573.877	Bosi, F.; Andreozzi, G. B.; Ferrini, V.; Lucchesi, S. Behavior of cation vacany in kenotetrahedral Cr-spinels from Albanian eastern belt ophiolites Sample: Ba4c, Provenance is Bater, Bulqiza massif, Sequence is cumulate American Mineralogist, 2004, 89, 1367-1373
9003546	CIF	Al1.238 Cr0.704 Fe0.304 Mg0.734 Mn0.004 Ni0.006 O4 Ti0.006	F d -3 m :2	8.1992; 8.1992; 8.1992 90; 90; 90	551.207	Bosi, F.; Andreozzi, G. B.; Ferrini, V.; Lucchesi, S. Behavior of cation vacany in kenotetrahedral Cr-spinels from Albanian eastern belt ophiolites Sample: N4x, Provenance is Bulqize, Bulqiza massif, Sequence is tectonite American Mineralogist, 2004, 89, 1367-1373
9003547	CIF	Al0.337 Cr1.606 Fe0.326 Mg0.694 Mn0.006 Ni0.004 O4 Ti0.002 V0.002	F d -3 m :2	8.3043; 8.3043; 8.3043 90; 90; 90	572.676	Bosi, F.; Andreozzi, G. B.; Ferrini, V.; Lucchesi, S. Behavior of cation vacany in kenotetrahedral Cr-spinels from Albanian eastern belt ophiolites Sample: Ba2y, Provenance is Bater, Bulqiza massif, Sequence is cumulate American Mineralogist, 2004, 89, 1367-1373
9003548	CIF	Ca5 H1.44 O13.012 P2.928	P 63/m	9.4234; 9.4234; 6.8801 90; 90; 120	529.104	Fleet, M. E.; Liu, X.; King, P. L. Accommodation of the carbonate ion in apatite: An FTIR and X-ray structure study of crystals synthesized at 2-4 GPa American Mineralogist, 2004, 89, 1422-1432
9003549	CIF	C0.01 H1.3 Ca5 O13.072 P3	P 63/m	9.4468; 9.4468; 6.8806 90; 90; 120	531.773	Fleet, M. E.; Liu, X.; King, P. L. Accommodation of the carbonate ion in apatite: An FTIR and X-ray structure study of crystals synthesized at 2-4 GPa American Mineralogist, 2004, 89, 1422-1432
9003550	CIF	C0.26 Ca5 O13.686 P2.829	P 63/m	9.4803; 9.4803; 6.8853 90; 90; 120	535.917	Fleet M E; Liu X; King P L Accommodation of the carbonate ion in apatite: An FTIR and X-ray structure study of crystals synthesized at 2-4 GPa Sample: xt371 American Mineralogist, 2004, 89, 1422-1432
9003551	CIF	C0.22 Ca5 O13.514 P2.823	P 63/m	9.4817; 9.4817; 6.8843 90; 90; 120	535.998	Fleet M E; Liu X; King P L Accommodation of the carbonate ion in apatite: An FTIR and X-ray structure study of crystals synthesized at 2-4 GPa Sample: xt373 American Mineralogist, 2004, 89, 1422-1432
9003556	CIF	H3 Mg5 Na3 O24 Si8	C -1	9.883; 54.082; 5.277 90.045; 103.068; 89.96	2747.47	Camara, F.; Oberti, R.; Della Ventura, G.; Welch, M. D.; Maresch, W. V. The crystal structure of synthetic NaNa2Mg5Si8O21(OH)3, a triclinic C-1 amphibole with a triple-cell and H excess Note: occupancies unreported, so calculated formula has an extra OH American Mineralogist, 2004, 89, 1464-1473
9003557	CIF	Ag Au Te2	P 1 2/m 1	5.124; 4.419; 7.437 90; 89.96; 90	168.396	Bindi, L.; Cipriani, C. Ordered distribution of Au and Ag in the crystal structure of muthmannite, AuAgTe2, a rare telluride from Sacarimb, Western Romania American Mineralogist, 2004, 89, 1505-1509
9003558	CIF	B3 Ca2.64 Ce4.41 F10 Fe0.77 H4 Na O38 P0.6 Si6.4 Th0.39 Ti0.23 Y7.56	R 3 m :H	10.7108; 10.7108; 27.0398 90; 90; 120	2686.45	Boiocchi, M.; Callegari, A.; Ottolini, L.; Maras, A. The chemistry and crystal structure of okanoganite-(Y) and comparison with vicanite-(Ce) Sample: Golden Horn batholith near Washington Pass, Okanogan County American Mineralogist, 2004, 89, 1540-1545
9003559	CIF	Ba0.65 Ca8.5 Fe0.1 H10 K3.75 Mn0.15 Na5.5 Nb0.9 O65.74 Si18 Sr1.4 Ti3.1	P 1 21/m 1	7.126; 24.913; 17.075 90; 101.89; 90	2966.29	Krivovichev, S. V.; Yakovenchuk, V. N.; Armbruster, T.; Dobelin, N.; Pattison, P.; Weber, H.-P.; Depmeier, W. Porous titanosilicate nanorods in the structure of yuksporite, (Sr,Ba)2K4(Ca,Na)14(_,Mn,Fe){(Ti,Nb)4(O,OH)4[Si6O17]2[Si2O7]3}(H2O,OH)n, resolved using synchrotron radiation Sample: Kola peninsula, Russia American Mineralogist, 2004, 89, 1561-1565
9003560	CIF	Ba0.906 H11.6 K1.708 Mn0.493 Na2.196 O32.986 Si8 Ti4	C 1 2/m 1	14.2147; 13.764; 7.7574 90; 116.653; 90	1356.47	Armbruster, T.; Krivovichev, S. V.; Weber, T.; Gnos, E.; Organova, N. N.; Yakovenchuk, V. N. Origin of diffuse superstructure reflections in labuntsovite-group minerals Sample A2 at T = -160 deg C American Mineralogist, 2004, 89, 1655-1666
9003561	CIF	Ba0.906 H11.6 K1.708 Mn0.493 Na2.196 O32.986 Si8 Ti4	C 1 2/m 1	14.2446; 13.7884; 7.7798 90; 116.709; 90	1364.99	Armbruster, T.; Krivovichev, S. V.; Weber, T.; Gnos, E.; Organova, N. N.; Yakovenchuk, V. N. Origin of diffuse superstructure reflections in labuntsovite-group minerals Sample A2 at T = 22 deg C American Mineralogist, 2004, 89, 1655-1666
9003562	CIF	Ba0.76 Fe0.46 H11.6 K1.78 Na2.22 O36.92 Si8 Ti4	C 1 2/m 1	14.237; 13.768; 7.767 90; 116.83; 90	1358.56	Armbruster, T.; Krivovichev, S. V.; Weber, T.; Gnos, E.; Organova, N. N.; Yakovenchuk, V. N. Origin of diffuse superstructure reflections in labuntsovite-group minerals Sample B at T = 22 deg C American Mineralogist, 2004, 89, 1655-1666
9003563	CIF	Ba H10 K2 Na2 O32 Si8 Ti4	C 1 m 1	14.2446; 13.7884; 7.75 90; 116.709; 90	1359.76	Armbruster, T.; Krivovichev, S. V.; Weber, T.; Gnos, E.; Organova, N. N.; Yakovenchuk, V. N. Origin of diffuse superstructure reflections in labuntsovite-group minerals Note: Predicted ordered structure American Mineralogist, 2004, 89, 1655-1666
9003564	CIF	Ba2 H24 K4 Mn Na4 O66 Si16 Ti8	I 1 2/m 1	14.2446; 13.7884; 15.5 90; 116.709; 90	2719.53	Armbruster, T.; Krivovichev, S. V.; Weber, T.; Gnos, E.; Organova, N. N.; Yakovenchuk, V. N. Origin of diffuse superstructure reflections in labuntsovite-group minerals Note: Predicted ordered structure American Mineralogist, 2004, 89, 1655-1666
9003565	CIF	Ba2 H24 K4 Mn Na4 O66 Si16 Ti8	C 1 2/m 1	14.2446; 13.7884; 15.5 90; 116.709; 90	2719.53	Armbruster, T.; Krivovichev, S. V.; Weber, T.; Gnos, E.; Organova, N. N.; Yakovenchuk, V. N. Origin of diffuse superstructure reflections in labuntsovite-group minerals Note: Predicted ordered structure American Mineralogist, 2004, 89, 1655-1666
9003566	CIF	Al1.86 B Ca1.95 Fe0.18 H0.9 Mg0.015 Mn0.995 O16 Si4	P -1	7.1849; 9.2152; 8.9765 91.761; 98.153; 77.15	573.595	Andreozzi G B; Lucchesi S; Graziani G; Russo U Site distribution of Fe2+ and Fe3+ in axinite mineral group: New crystal-chemical formula Sample 47 American Mineralogist, 2004, 89, 1763-1771
9003567	CIF	H35.72 K5.7 Mn10.86 Na9 O87.72 Si26.72	P 3 1 c	14.519; 14.519; 21.062 90; 90; 120	3845.06	Krivovichev, S. V.; Yakovenchuk, V. N.; Armbruster, T.; Pakhomovsky, Y. A.; Weber, H.-P.; Depmeier, W. Synchrotron X-ray diffraction study of the structure of shafranovskite, K2Na3(Mn,Fe,Na)4[Si9(O,OH)27].nH2O, a rare manganese silicate from Kola peninsula, Russia American Mineralogist, 2004, 89, 1816-1821
9003568	CIF	Ca O4 S	P 1 21/n 1	6.3769; 6.6439; 6.1667 90; 102.22; 90	255.348	Crichton, W. A.; Parise, J. B.; Antao, S. M.; Grzechnik, A. Evidence for monazite-, barite-, and AgMnO4 (distorted barite)-type structures of CaSO4 at high pressure and temperature Sample: P = 11.8 GPa American Mineralogist, 2005, 90, 22-27
9003569	CIF	Ca O4 S	P b n m	6.3365; 7.5347; 4.9532 90; 90; 90	236.484	Crichton, W. A.; Parise, J. B.; Antao, S. M.; Grzechnik, A. Evidence for monazite-, barite-, and AgMnO4 (distorted barite)-type structures of CaSO4 at high pressure and temperature Sample: P = 21 GPa, T = 1450 K American Mineralogist, 2005, 90, 22-27
9003570	CIF	Mg2 O4 Si	I m m a	5.6998; 11.4383; 8.2573 90; 90; 90	538.343	Jacobsen, S. D.; Demouchy, S.; Frost, D. J.; Ballaran, T. B.; Kung, J. A systematic study of OH in hydrous wadsleyite from polarized FTIR spectroscopy and single-crystal X-ray diffraction: Oxygen sites for hydrogen storage in Earth's interior Sample: ~150 wt ppm H2O American Mineralogist, 2005, 90, 61-70
9003571	CIF	Mg2 O4 Si	I m m a	5.6941; 11.4597; 8.2556 90; 90; 90	538.7	Jacobsen, S. D.; Demouchy, S.; Frost, D. J.; Ballaran, T. B.; Kung, J. A systematic study of OH in hydrous wadsleyite from polarized FTIR spectroscopy and single-crystal X-ray diffraction: Oxygen sites for hydrogen storage in Earth's interior Sample: ~3200 wt ppm H2O American Mineralogist, 2005, 90, 61-70
9003572	CIF	Mg2 O4 Si	I m m a	5.689; 11.483; 8.2527 90; 90; 90	539.122	Jacobsen, S. D.; Demouchy, S.; Frost, D. J.; Ballaran, T. B.; Kung, J. A systematic study of OH in hydrous wadsleyite from polarized FTIR spectroscopy and single-crystal X-ray diffraction: Oxygen sites for hydrogen storage in Earth's interior Sample: ~9600 wt ppm H2O American Mineralogist, 2005, 90, 61-70
9003573	CIF	Ca2 F H O4 Si	P 1 21/c 1	5.8111; 10.605; 6.6968 90; 102.025; 90	403.646	Leinenweber, K.; Johnson, J.; Groy, T. Ca2SiO3OHF - A high-pressure phase with dense calcium polyhedral packing and tetrahedral silicon American Mineralogist, 2005, 90, 115-121
9003574	CIF	Al0.003 Ca0.024 Mg1.433 Mn0.541 O6 Si1.997 Ti0.002	P b c a	18.3668; 8.8725; 5.2289 90; 90; 90	852.099	Stimpfl, M. The Mn, Mg-intracrystalline exchange reaction in donpeacorite (Mn0.54Ca0.03Mg1.43Si2O6) and its relation to the fractionation behavior of Mn in Fe, Mg-orthopyroxene Sample: untreated American Mineralogist, 2005, 90, 155-161
9003575	CIF	Al0.003 Ca0.024 Mg1.433 Mn0.541 O6 Si1.997 Ti0.002	P b c a	18.3653; 8.8819; 5.2305 90; 90; 90	853.193	Stimpfl, M. The Mn, Mg-intracrystalline exchange reaction in donpeacorite (Mn0.54Ca0.03Mg1.43Si2O6) and its relation to the fractionation behavior of Mn in Fe, Mg-orthopyroxene Sample: quenched from 980 deg C DIS American Mineralogist, 2005, 90, 155-161
9003576	CIF	Al0.003 Ca0.024 Mg1.433 Mn0.542 O6 Si1.997 Ti0.002	P b c a	18.3686; 8.8828; 5.2287 90; 90; 90	853.139	Stimpfl, M. The Mn, Mg-intracrystalline exchange reaction in donpeacorite (Mn0.54Ca0.03Mg1.43Si2O6) and its relation to the fractionation behavior of Mn in Fe, Mg-orthopyroxene Sample: quenched from 900 deg C DIS American Mineralogist, 2005, 90, 155-161
9003577	CIF	Al0.003 Ca0.024 Mg1.433 Mn0.509 O6 Si1.997 Ti0.002	P b c a	18.3718; 8.8836; 5.2334 90; 90; 90	854.131	Stimpfl, M. The Mn, Mg-intracrystalline exchange reaction in donpeacorite (Mn0.54Ca0.03Mg1.43Si2O6) and its relation to the fractionation behavior of Mn in Fe, Mg-orthopyroxene Sample: quenched from 904 deg C ORD American Mineralogist, 2005, 90, 155-161
9003578	CIF	Al0.003 Ca0.024 Mg1.433 Mn0.541 O6 Si1.997 Ti0.002	P b c a	18.3645; 8.881; 5.2284 90; 90; 90	852.727	Stimpfl, M. The Mn, Mg-intracrystalline exchange reaction in donpeacorite (Mn0.54Ca0.03Mg1.43Si2O6) and its relation to the fractionation behavior of Mn in Fe, Mg-orthopyroxene Sample: quenched from 856 deg C ORD American Mineralogist, 2005, 90, 155-161
9003579	CIF	Al0.003 Ca0.024 Mg1.433 Mn0.541 O6 Si1.997 Ti0.002	P b c a	18.3559; 8.8741; 5.2256 90; 90; 90	851.209	Stimpfl, M. The Mn, Mg-intracrystalline exchange reaction in donpeacorite (Mn0.54Ca0.03Mg1.43Si2O6) and its relation to the fractionation behavior of Mn in Fe, Mg-orthopyroxene Sample: quenched from 806 deg C ORD American Mineralogist, 2005, 90, 155-161
9003580	CIF	Cu S2 Sb	P n m a	6.018; 3.7958; 14.495 90; 90; 90	331.111	Kyono, A.; Kimata, M. Crystal structures of chalcostibite (CuSbS2) and emplectite (CuBiS2): Structural relationship of stereochemical activity between chalcostibite and emplectite American Mineralogist, 2005, 90, 162-165
9003581	CIF	Bi Cu S2	P n m a	6.134; 3.9111; 14.548 90; 90; 90	349.017	Kyono, A.; Kimata, M. Crystal structures of chalcostibite (CuSbS2) and emplectite (CuBiS2): Structural relationship of stereochemical activity between chalcostibite and emplectite American Mineralogist, 2005, 90, 162-165
9003582	CIF	Fe2 Mg O4	F d -3 m :2	8.39704; 8.39704; 8.39704 90; 90; 90	592.078	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 28 C American Mineralogist, 2005, 90, 219-228
9003583	CIF	Fe2 Mg O4	F d -3 m :2	8.39769; 8.39769; 8.39769 90; 90; 90	592.215	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 47 C American Mineralogist, 2005, 90, 219-228
9003584	CIF	Fe2 Mg O4	F d -3 m :2	8.4036; 8.4036; 8.4036 90; 90; 90	593.466	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 105 C American Mineralogist, 2005, 90, 219-228
9003585	CIF	Fe2 Mg O4	F d -3 m :2	8.40578; 8.40578; 8.40578 90; 90; 90	593.928	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 143 C American Mineralogist, 2005, 90, 219-228
9003586	CIF	Fe2 Mg O4	F d -3 m :2	8.41019; 8.41019; 8.41019 90; 90; 90	594.864	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 200 C American Mineralogist, 2005, 90, 219-228
9003587	CIF	Fe2 Mg O4	F d -3 m :2	8.41634; 8.41634; 8.41634 90; 90; 90	596.17	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 257 C American Mineralogist, 2005, 90, 219-228
9003588	CIF	Fe2 Mg O4	F d -3 m :2	8.42079; 8.42079; 8.42079 90; 90; 90	597.116	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 295 C American Mineralogist, 2005, 90, 219-228
9003589	CIF	Fe2 Mg O4	F d -3 m :2	8.42712; 8.42712; 8.42712 90; 90; 90	598.463	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 353 C American Mineralogist, 2005, 90, 219-228
9003590	CIF	Fe2 Mg O4	F d -3 m :2	8.43043; 8.43043; 8.43043 90; 90; 90	599.169	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 410 C American Mineralogist, 2005, 90, 219-228
9003591	CIF	Fe2 Mg O4	F d -3 m :2	8.43439; 8.43439; 8.43439 90; 90; 90	600.014	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 448 C American Mineralogist, 2005, 90, 219-228
9003592	CIF	Fe2 Mg O4	F d -3 m :2	8.43699; 8.43699; 8.43699 90; 90; 90	600.569	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 505 C American Mineralogist, 2005, 90, 219-228
9003593	CIF	Fe2 Mg O4	F d -3 m :2	8.43829; 8.43829; 8.43829 90; 90; 90	600.846	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 543 C American Mineralogist, 2005, 90, 219-228
9003594	CIF	Fe2 Mg O4	F d -3 m :2	8.44178; 8.44178; 8.44178 90; 90; 90	601.592	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 562 C American Mineralogist, 2005, 90, 219-228
9003595	CIF	Fe2 Mg O4	F d -3 m :2	8.44082; 8.44082; 8.44082 90; 90; 90	601.387	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 581 C American Mineralogist, 2005, 90, 219-228
9003596	CIF	Fe2 Mg O4	F d -3 m :2	8.44366; 8.44366; 8.44366 90; 90; 90	601.994	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 601 C American Mineralogist, 2005, 90, 219-228
9003597	CIF	Fe2 Mg O4	F d -3 m :2	8.44737; 8.44737; 8.44737 90; 90; 90	602.788	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 658 C American Mineralogist, 2005, 90, 219-228
9003598	CIF	Fe2 Mg O4	F d -3 m :2	8.45225; 8.45225; 8.45225 90; 90; 90	603.833	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 696 C American Mineralogist, 2005, 90, 219-228
9003599	CIF	Fe2 Mg O4	F d -3 m :2	8.4583; 8.4583; 8.4583 90; 90; 90	605.131	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 753 C American Mineralogist, 2005, 90, 219-228
9003600	CIF	Fe2 Mg O4	F d -3 m :2	8.46018; 8.46018; 8.46018 90; 90; 90	605.534	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 791 C American Mineralogist, 2005, 90, 219-228
9003601	CIF	Fe2 Mg O4	F d -3 m :2	8.46608; 8.46608; 8.46608 90; 90; 90	606.802	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 848 C American Mineralogist, 2005, 90, 219-228
9003602	CIF	Fe2 Mg O4	F d -3 m :2	8.47175; 8.47175; 8.47175 90; 90; 90	608.022	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 906 C American Mineralogist, 2005, 90, 219-228
9003603	CIF	Fe2 Mg O4	F d -3 m :2	8.47516; 8.47516; 8.47516 90; 90; 90	608.757	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 944 C American Mineralogist, 2005, 90, 219-228
9003604	CIF	Fe2 Mg O4	F d -3 m :2	8.4767; 8.4767; 8.4767 90; 90; 90	609.089	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on heating T = 982 C American Mineralogist, 2005, 90, 219-228
9003605	CIF	Fe2 Mg O4	F d -3 m :2	8.47405; 8.47405; 8.47405 90; 90; 90	608.517	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 963 C American Mineralogist, 2005, 90, 219-228
9003606	CIF	Fe2 Mg O4	F d -3 m :2	8.47392; 8.47392; 8.47392 90; 90; 90	608.489	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 944 C American Mineralogist, 2005, 90, 219-228
9003607	CIF	Fe2 Mg O4	F d -3 m :2	8.47029; 8.47029; 8.47029 90; 90; 90	607.708	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 906 C American Mineralogist, 2005, 90, 219-228
9003608	CIF	Fe2 Mg O4	F d -3 m :2	8.46438; 8.46438; 8.46438 90; 90; 90	606.437	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 848 C American Mineralogist, 2005, 90, 219-228
9003609	CIF	Fe2 Mg O4	F d -3 m :2	8.46211; 8.46211; 8.46211 90; 90; 90	605.949	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 791 C American Mineralogist, 2005, 90, 219-228
9003610	CIF	Fe2 Mg O4	F d -3 m :2	8.45708; 8.45708; 8.45708 90; 90; 90	604.869	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 753 C American Mineralogist, 2005, 90, 219-228
9003611	CIF	Fe2 Mg O4	F d -3 m :2	8.45245; 8.45245; 8.45245 90; 90; 90	603.876	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 715 C American Mineralogist, 2005, 90, 219-228
9003612	CIF	Fe2 Mg O4	F d -3 m :2	8.4518; 8.4518; 8.4518 90; 90; 90	603.737	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 696 C American Mineralogist, 2005, 90, 219-228
9003613	CIF	Fe2 Mg O4	F d -3 m :2	8.44813; 8.44813; 8.44813 90; 90; 90	602.951	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 658 C American Mineralogist, 2005, 90, 219-228
9003614	CIF	Fe2 Mg O4	F d -3 m :2	8.44122; 8.44122; 8.44122 90; 90; 90	601.472	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 601 C American Mineralogist, 2005, 90, 219-228
9003615	CIF	Fe2 Mg O4	F d -3 m :2	8.43831; 8.43831; 8.43831 90; 90; 90	600.851	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 562 C American Mineralogist, 2005, 90, 219-228
9003616	CIF	Fe2 Mg O4	F d -3 m :2	8.43712; 8.43712; 8.43712 90; 90; 90	600.596	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 543 C American Mineralogist, 2005, 90, 219-228
9003617	CIF	Fe2 Mg O4	F d -3 m :2	8.43375; 8.43375; 8.43375 90; 90; 90	599.877	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 505 C American Mineralogist, 2005, 90, 219-228
9003618	CIF	Fe2 Mg O4	F d -3 m :2	8.42961; 8.42961; 8.42961 90; 90; 90	598.994	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 448 C American Mineralogist, 2005, 90, 219-228
9003619	CIF	Fe2 Mg O4	F d -3 m :2	8.42558; 8.42558; 8.42558 90; 90; 90	598.135	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 410 C American Mineralogist, 2005, 90, 219-228
9003620	CIF	Fe2 Mg O4	F d -3 m :2	8.4208; 8.4208; 8.4208 90; 90; 90	597.118	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 353 C American Mineralogist, 2005, 90, 219-228
9003621	CIF	Fe2 Mg O4	F d -3 m :2	8.41415; 8.41415; 8.41415 90; 90; 90	595.704	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 295 C American Mineralogist, 2005, 90, 219-228
9003622	CIF	Fe2 Mg O4	F d -3 m :2	8.41259; 8.41259; 8.41259 90; 90; 90	595.373	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 257 C American Mineralogist, 2005, 90, 219-228
9003623	CIF	Fe2 Mg O4	F d -3 m :2	8.40607; 8.40607; 8.40607 90; 90; 90	593.99	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 200 C American Mineralogist, 2005, 90, 219-228
9003624	CIF	Fe2 Mg O4	F d -3 m :2	8.40084; 8.40084; 8.40084 90; 90; 90	592.882	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 143 C American Mineralogist, 2005, 90, 219-228
9003625	CIF	Fe2 Mg O4	F d -3 m :2	8.39837; 8.39837; 8.39837 90; 90; 90	592.359	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 105 C American Mineralogist, 2005, 90, 219-228
9003626	CIF	Fe2 Mg O4	F d -3 m :2	8.39514; 8.39514; 8.39514 90; 90; 90	591.676	Antao, S. M.; Hassan, I.; Parise, J. B. Cation ordering in magnesioferrite, MgFe2O4, to 982 C using in situ synchrotron X-ray powder diffraction Sample: on cooling T = 47 C American Mineralogist, 2005, 90, 219-228
9003627	CIF	As2 H2 O10.29 Pb2 U	P -1	7.1153; 10.478; 6.8571 101.178; 95.711; 86.651	498.637	Locock, A. J.; Burns, P. C.; Flynn, T. M. The role of water in the structures of synthetic hallimondite, Pb2[(UO2)(AsO4)2](H2O)n and synthetic parsonsite, Pb2[(UO2)(PO4)2](H2O)n, 0 < n < 0.5 American Mineralogist, 2005, 90, 240-246
9003628	CIF	O10 P2 Pb2 U	P -1	6.8432; 10.4105; 6.6718 101.418; 98.347; 86.264	460.639	Locock, A. J.; Burns, P. C.; Flynn, T. M. The role of water in the structures of synthetic hallimondite, Pb2[(UO2)(AsO4)2](H2O)n and synthetic parsonsite, Pb2[(UO2)(PO4)2](H2O)n, 0 < n < 0.5 American Mineralogist, 2005, 90, 240-246
9003629	CIF	Al2.315 Ca0.474 H8 Na1.462 O12.74 Si2.685	I -4 2 d	13.1988; 13.1988; 6.6288 90; 90; 90	1154.79	Lee Y; Hriljac J A; Vogt T Variable-temperature structural studies of tetranatrolite from Mt. Saint-Hilaire: Synchrotron X-ray powder diffraction and Rietveld analysis Sample: at ambient conditions American Mineralogist, 2005, 90, 247-251
9003630	CIF	Al2.315 Ca0.474 H8 Na1.462 O12.37 Si2.685	I -4 2 d	13.0666; 13.0666; 6.6632 90; 90; 90	1137.65	Lee Y; Hriljac J A; Vogt T Variable-temperature structural studies of tetranatrolite from Mt. Saint-Hilaire: Synchrotron X-ray powder diffraction and Rietveld analysis Sample: T = 100 C American Mineralogist, 2005, 90, 247-251
9003631	CIF	Al2.315 Ca0.474 H8 Na1.462 O12.102 Si2.685	I -4 2 d	12.9815; 12.9815; 6.6808 90; 90; 90	1125.84	Lee Y; Hriljac J A; Vogt T Variable-temperature structural studies of tetranatrolite from Mt. Saint-Hilaire: Synchrotron X-ray powder diffraction and Rietveld analysis Sample: T = 200 C American Mineralogist, 2005, 90, 247-251
9003632	CIF	Al2.315 Ca0.474 H0.204 Na1.462 O12 Si2.685	I -4 2 d	12.9202; 12.9202; 6.695 90; 90; 90	1117.61	Lee Y; Hriljac J A; Vogt T Variable-temperature structural studies of tetranatrolite from Mt. Saint-Hilaire: Synchrotron X-ray powder diffraction and Rietveld analysis Sample: T = 300 C, phase I American Mineralogist, 2005, 90, 247-251
9003633	CIF	Al2.315 Ca0.474 H0.204 Na1.462 O10.402 Si2.685	I -4 2 d	13.1503; 13.1503; 6.2469 90; 90; 90	1080.28	Lee Y; Hriljac J A; Vogt T Variable-temperature structural studies of tetranatrolite from Mt. Saint-Hilaire: Synchrotron X-ray powder diffraction and Rietveld analysis Sample: T = 300 C, phase II American Mineralogist, 2005, 90, 247-251
9003634	CIF	Al2 H6 Na2 O13 Si3	C 1 c 1	6.48; 19.293; 9.8984 90; 107.56; 90	1179.82	Lee, Y.; Hriljac, J. A.; Parise, J. B.; Vogt, T. Pressure-induced stabilization of ordered paranatrolite: A new insight into the paranatrolite controversy Sample: at P = 0.99 GPa American Mineralogist, 2005, 90, 252-257
9003635	CIF	Ge Mg O3	C m c m	2.613; 8.473; 6.443 90; 90; 90	142.648	Hirose, K.; Kawamura, K.; Ohishi, Y.; Tateno, S.; Sata, N. Stability and equation of state of MgGeO3 post-perovskite phase Sample: P = 78.3 GPa, T = 300 K Note: CaIrO3-type structure American Mineralogist, 2005, 90, 262-265
9003636	CIF	Ge Mg O3	C m c m	2.613; 8.473; 6.443 90; 90; 90	142.648	Hirose, K.; Kawamura, K.; Ohishi, Y.; Tateno, S.; Sata, N. Stability and equation of state of MgGeO3 post-perovskite phase Sample: P = 78.3 GPa, T = 300 K Note: CaIrO3-type structure, positional parameters from MD simulation American Mineralogist, 2005, 90, 262-265
9003637	CIF	Al0.1 Ca0.28 Fe0.72 K0.8 Li1.8 Mg1.85 Mn0.83 Na2.92 O24 Si8 Ti0.6	C 1 2/m 1	9.808; 17.84; 5.2848 90; 104.653; 90	894.631	Tait, K. T.; Hawthorne, F. C.; Grice, J. D.; Ottolini, L.; Nayak, V. K. Dellaventuraite, NaNa2(MgMn2TiLi)Si8O22O2, a new anhydrous amphibole from the Kajlidongri Manganese Mine, Jhabua District, Madhya Pradesh, India American Mineralogist, 2005, 90, 304-309
9003638	CIF	Fe2 H10 O17 S3	P 1 21/m 1	10.711; 11.085; 5.5747 90; 98.853; 90	654.007	Majzlan, J.; Botez, C.; Stephens, P. W. The crystal structures of synthetics Fe2(SO4)3(H2O)5 and the type specimen of lausenite American Mineralogist, 2005, 90, 411-416
9003639	CIF	Al2 Ca H4 O10 Si2	P m c n	5.8515; 8.7768; 13.1107 90; 90; 90	673.332	Sondergeld, P.; Schranz, W.; Troster, A.; Armbruster, T.; Giester, G.; Kityk, A.; Carpenter, M. A. Ordering and elasticity associated with low-temperature phase transitions in lawsonite Sample at T = 215 K American Mineralogist, 2005, 90, 448-456
9003640	CIF	Al8.982 B3.324 H5 Na0.484 O31 Si5.676	R 3 m :H	15.8031; 15.8031; 7.0877 90; 90; 120	1532.92	Ertl, A.; Rossman, G. R.; Hughes, J. M.; Prowatke, S.; Ludwig, T. Mn-bearing "oxy-rossmanite" with tetrahedrally-coordinated Al and B from Austria: Structure, chemistry, and infrared and optical spectroscopic study Sample: REDT1 from Eibenstein an der Thaya, Lower Austria Reported formula: (Na.46 Ca.01) (Al2.37 Li.33 Mn2+.25 Fe2+.04 Ti4+.01) Al6 (Si5.47 Al.28 B.25) O18 (BO3)3 [(OH)2.85 O.15] [O.86 (OH).10 F.04] Tourmaline American Mineralogist, 2005, 90, 481-487
9003641	CIF	Al9 B3.39 H3 Na0.478 O31 Si5.61	R 3 m :H	15.8171; 15.8171; 7.0935 90; 90; 120	1536.9	Ertl, A.; Rossman, G. R.; Hughes, J. M.; Prowatke, S.; Ludwig, T. Mn-bearing "oxy-rossmanite" with tetrahedrally-coordinated Al and B from Austria: Structure, chemistry, and infrared and optical spectroscopic study Sample: REDT4 from Eibenstein an der Thaya, Lower Austria Reported formula: (Na.46 Ca.01) (Al2.35 Li.32 Mn2+.28 Fe2+.04 Ti4+.01) Al6 (Si5.51 Al.25 B.24) O18 (BO3)3 [(OH)2.80 O.20] [O.86 (OH).10 F.04] Tourmaline American Mineralogist, 2005, 90, 481-487
9003642	CIF	Al2 Ca3 D12 O12	I a -3 d	12.567; 12.567; 12.567 90; 90; 90	1984.7	Lager, G. A.; Marshall, W. G.; Liu, Z.; Downs, R. T. Re-examination of the hydrogarnet structure at high pressure using neutron powder diffraction and infrared spectroscopy Sample: P = 0.08 GPa American Mineralogist, 2005, 90, 639-644
9003643	CIF	Al2 Ca3 D12 O12	I a -3 d	12.5163; 12.5163; 12.5163 90; 90; 90	1960.78	Lager, G. A.; Marshall, W. G.; Liu, Z.; Downs, R. T. Re-examination of the hydrogarnet structure at high pressure using neutron powder diffraction and infrared spectroscopy Sample: P = 0.80 GPa American Mineralogist, 2005, 90, 639-644
9003644	CIF	Al2 Ca3 D12 O12	I a -3 d	12.4557; 12.4557; 12.4557 90; 90; 90	1932.43	Lager, G. A.; Marshall, W. G.; Liu, Z.; Downs, R. T. Re-examination of the hydrogarnet structure at high pressure using neutron powder diffraction and infrared spectroscopy Sample: P = 1.72 GPa American Mineralogist, 2005, 90, 639-644
9003645	CIF	Al2 Ca3 D12 O12	I a -3 d	12.3783; 12.3783; 12.3783 90; 90; 90	1896.63	Lager, G. A.; Marshall, W. G.; Liu, Z.; Downs, R. T. Re-examination of the hydrogarnet structure at high pressure using neutron powder diffraction and infrared spectroscopy Sample: P = 2.98 GPa American Mineralogist, 2005, 90, 639-644
9003646	CIF	Al2 Ca3 D12 O12	I a -3 d	12.3165; 12.3165; 12.3165 90; 90; 90	1868.37	Lager, G. A.; Marshall, W. G.; Liu, Z.; Downs, R. T. Re-examination of the hydrogarnet structure at high pressure using neutron powder diffraction and infrared spectroscopy Sample: P = 4.05 GPa American Mineralogist, 2005, 90, 639-644
9003647	CIF	Al2 Ca3 D12 O12	I a -3 d	12.2441; 12.2441; 12.2441 90; 90; 90	1835.61	Lager, G. A.; Marshall, W. G.; Liu, Z.; Downs, R. T. Re-examination of the hydrogarnet structure at high pressure using neutron powder diffraction and infrared spectroscopy Sample: P = 5.40 GPa American Mineralogist, 2005, 90, 639-644
9003648	CIF	Al2 Ca3 D12 O12	I a -3 d	12.1812; 12.1812; 12.1812 90; 90; 90	1807.47	Lager, G. A.; Marshall, W. G.; Liu, Z.; Downs, R. T. Re-examination of the hydrogarnet structure at high pressure using neutron powder diffraction and infrared spectroscopy Sample: P = 6.65 GPa American Mineralogist, 2005, 90, 639-644
9003649	CIF	Al2 Ca3 D12 O12	I a -3 d	12.1388; 12.1388; 12.1388 90; 90; 90	1788.66	Lager, G. A.; Marshall, W. G.; Liu, Z.; Downs, R. T. Re-examination of the hydrogarnet structure at high pressure using neutron powder diffraction and infrared spectroscopy Sample: P = 7.55 GPa American Mineralogist, 2005, 90, 639-644
9003650	CIF	Al2 Ca3 D12 O12	I a -3 d	12.0926; 12.0926; 12.0926 90; 90; 90	1768.31	Lager, G. A.; Marshall, W. G.; Liu, Z.; Downs, R. T. Re-examination of the hydrogarnet structure at high pressure using neutron powder diffraction and infrared spectroscopy Sample: P = 8.56 GPa American Mineralogist, 2005, 90, 639-644
9003651	CIF	Al2 Ca3 D12 O12	I a -3 d	12.0549; 12.0549; 12.0549 90; 90; 90	1751.82	Lager, G. A.; Marshall, W. G.; Liu, Z.; Downs, R. T. Re-examination of the hydrogarnet structure at high pressure using neutron powder diffraction and infrared spectroscopy Sample: P = 9.42 GPa American Mineralogist, 2005, 90, 639-644
9003652	CIF	Al5.574 Ca2 H72 K0.48 Na0.3 O61.56 Si12.426	R -3 m :H	13.335; 13.335; 22.823 90; 90; 120	3514.71	Gatta, G. D.; Comodi, P.; Zanazzi, P. F.; Ballaran, T. B. Anomalous elastic behavior and high-pressure structural evolution of zeolite levyne Locality: Beech Creek, Grant County, Oregon P = .0001 GPa uncompressed American Mineralogist, 2005, 90, 645-652
9003653	CIF	Al5.574 Ca2.28 H60 K0.56 Na0.4 O60.78 Si12.426	R -3 m :H	13.196; 13.196; 22.895 90; 90; 120	3452.68	Gatta, G. D.; Comodi, P.; Zanazzi, P. F.; Ballaran, T. B. Anomalous elastic behavior and high-pressure structural evolution of zeolite levyne Locality: Beech Creek, Grant County, Oregon P = .79 GPa American Mineralogist, 2005, 90, 645-652
9003654	CIF	Al5.574 Ca2.56 H72 K0.56 Na0.5 O66.72 Si12.426	R -3 m :H	13; 13; 22.676 90; 90; 120	3318.82	Gatta, G. D.; Comodi, P.; Zanazzi, P. F.; Ballaran, T. B. Anomalous elastic behavior and high-pressure structural evolution of zeolite levyne Locality: Beech Creek, Grant County, Oregon P = 3.0 GPa American Mineralogist, 2005, 90, 645-652
9003655	CIF	Al5.574 Ca2.16 H60 K0.5 Na0.1 O61.44 Si12.426	R -3 m :H	13.327; 13.327; 22.861 90; 90; 120	3516.34	Gatta, G. D.; Comodi, P.; Zanazzi, P. F.; Ballaran, T. B. Anomalous elastic behavior and high-pressure structural evolution of zeolite levyne Locality: Beech Creek, Grant County, Oregon P = .0001 GPa decompressed American Mineralogist, 2005, 90, 645-652
9003656	CIF	Fe Mn2.02 Na1.862 O12 P3	C 1 2/c 1	12.024; 12.629; 6.515 90; 114.58; 90	899.66	Hatert, F.; Rebbouh, L.; Hermann, R. P.; Fransolet, A. M.; Long, G. J.; Grandjean, F. Crystal chemistry of the hydrothermally synthesized Na2(Mn1-xFe2+x)2Fe3+(PO4)3 alluaudite-type solid solution Sample: Na2Mn2Fe3+(PO4)3 (x = 0.00) American Mineralogist, 2005, 90, 653-662
9003657	CIF	Fe1.5 Mn1.538 Na1.56 O12 P3	C 1 2/c 1	11.995; 12.596; 6.495 90; 114.6; 90	892.254	Hatert, F.; Rebbouh, L.; Hermann, R. P.; Fransolet, A. M.; Long, G. J.; Grandjean, F. Crystal chemistry of the hydrothermally synthesized Na2(Mn1-xFe2+x)2Fe3+(PO4)3 alluaudite-type solid solution Sample: Na2Mn1.5Fe2+0.5Fe3+(PO4)3 (x = 0.25) American Mineralogist, 2005, 90, 653-662
9003658	CIF	Fe1.964 Mn Na1.738 O12 P3	C 1 2/c 1	11.944; 12.56; 6.48 90; 114.52; 90	884.44	Hatert, F.; Rebbouh, L.; Hermann, R. P.; Fransolet, A. M.; Long, G. J.; Grandjean, F. Crystal chemistry of the hydrothermally synthesized Na2(Mn1-xFe2+x)2Fe3+(PO4)3 alluaudite-type solid solution Sample: Na2MnFe2+Fe3+(PO4)3 (x = 0.50) American Mineralogist, 2005, 90, 653-662
9003659	CIF	Fe2.48 Mn0.442 Na1.762 O12 P3	C 1 2/c 1	11.894; 12.536; 6.471 90; 114.49; 90	878.043	Hatert, F.; Rebbouh, L.; Hermann, R. P.; Fransolet, A. M.; Long, G. J.; Grandjean, F. Crystal chemistry of the hydrothermally synthesized Na2(Mn1-xFe2+x)2Fe3+(PO4)3 alluaudite-type solid solution Sample: Na2Mn0.5Fe2+1.5Fe3+(PO4)3 (x = 0.75) American Mineralogist, 2005, 90, 653-662
9003660	CIF	Fe3 Na1.702 O12 P3	C 1 2/c 1	11.849; 12.539; 6.486 90; 114.51; 90	876.819	Hatert, F.; Rebbouh, L.; Hermann, R. P.; Fransolet, A. M.; Long, G. J.; Grandjean, F. Crystal chemistry of the hydrothermally synthesized Na2(Mn1-xFe2+x)2Fe3+(PO4)3 alluaudite-type solid solution Sample: Na2Fe2+2Fe3+(PO4)3 (x = 1.00) American Mineralogist, 2005, 90, 653-662
9003661	CIF	Fe O8 S2	I m m m	3.668; 6.418; 7.159 90; 90; 90	168.532	Ventruti, G.; Scordari, F.; Schingaro, E.; Gualtieri, A. F.; Meneghini, C. The order-disorder character of FeOHSO4 obtained from the thermal decomposition of metahohmannite, Fe3+2(H2O)4[O(SO4)2] Sample: T = 220 C Note: this is a fictitious "superposition structure", resulting from Rietveld refinement of a structure with disordered layer stacking American Mineralogist, 2005, 90, 679-686
9003662	CIF	Fe O5 S	P 1 21/c 1	7.33; 7.14; 7.39 90; 119.7; 90	335.956	Ventruti, G.; Scordari, F.; Schingaro, E.; Gualtieri, A. F.; Meneghini, C. The order-disorder character of FeOHSO4 obtained from the thermal decomposition of metahohmannite, Fe3+2(H2O)4[O(SO4)2] Sample: T = 220 C Note: this is the MDO2 polytype, a maximally ordered member of a family of OD structures American Mineralogist, 2005, 90, 679-686
9003663	CIF	Ca Ge O5 Ti0.954 Zr0.046	P 1 21/a 1	7.15; 8.89941; 6.65482 90; 113.73; 90	387.649	Ellemann-Olesen R; Malcherek, T. Temperature and composition dependence of structural phase transitions in Ca(TixZr1-x)OGeO4. Sample: Ti95, titanite structure American Mineralogist, 2005, 90, 687-694
9003664	CIF	Ca Ge O5 Ti0.908 Zr0.091	P 1 21/a 1	7.15461; 8.90612; 6.65901 90; 113.701; 90	388.523	Ellemann-Olesen R; Malcherek, T. Temperature and composition dependence of structural phase transitions in Ca(TixZr1-x)OGeO4. Sample: Ti90, titanite structure American Mineralogist, 2005, 90, 687-694
9003665	CIF	Ca Ge O5 Ti0.807 Zr0.192	A 1 2/a 1	7.1749; 8.93321; 6.67312 90; 113.6; 90	391.94	Ellemann-Olesen R; Malcherek, T. Temperature and composition dependence of structural phase transitions in Ca(TixZr1-x)OGeO4. Sample: Ti80, hi-T titanite structure American Mineralogist, 2005, 90, 687-694
9003666	CIF	Ca Ge O5 Ti0.507 Zr0.492	A 1 2/a 1	7.25821; 9.01791; 6.722 90; 113.351; 90	403.944	Ellemann-Olesen R; Malcherek, T. Temperature and composition dependence of structural phase transitions in Ca(TixZr1-x)OGeO4. Sample: Ti50, hi-T titanite structure American Mineralogist, 2005, 90, 687-694
9003667	CIF	Ca Ge O5 Ti0.222 Zr0.778	A -1	7.35292; 9.1; 6.75633 89.085; 113.024; 91.001	415.981	Ellemann-Olesen R; Malcherek, T. Temperature and composition dependence of structural phase transitions in Ca(TixZr1-x)OGeO4. Sample: Ti20, triclinically distorted titanite structure American Mineralogist, 2005, 90, 687-694
9003668	CIF	Ca Ge O5 Ti0.114 Zr0.885	A -1	7.38422; 9.12413; 6.76031 88.765; 112.877; 91.297	419.499	Ellemann-Olesen R; Malcherek, T. Temperature and composition dependence of structural phase transitions in Ca(TixZr1-x)OGeO4. Sample: Ti10, triclinically distorted titanite structure American Mineralogist, 2005, 90, 687-694
9003669	CIF	D0.63 H1.37 Mg6.13 Na1.71 O24 Si8	P 1 21/m 1	9.71887; 17.93853; 5.26923 90; 102.526; 90	896.783	Iezzi, G.; Gatta, G. D.; Kockelmann, W.; Della Ventura, G.; Rinaldi, R.; Schafer, W.; Piccinini, M.; Gaillard, F. Low-T neutron powder-diffraction and synchrotron-radiation IR study of synthetic amphibole Na(NaMg)Mg5Si8O22(OH)2 Sample: T = 298 K American Mineralogist, 2004, 90, 695-700
9003670	CIF	D0.63 H1.37 Mg6.13 Na1.71 O24 Si8	P 1 21/m 1	9.70169; 17.89537; 5.25744 90; 102.597; 90	890.8	Iezzi, G.; Gatta, G. D.; Kockelmann, W.; Della Ventura, G.; Rinaldi, R.; Schafer, W.; Piccinini, M.; Gaillard, F. Low-T neutron powder-diffraction and synchrotron-radiation IR study of synthetic amphibole Na(NaMg)Mg5Si8O22(OH)2 Sample: T = 8 K American Mineralogist, 2004, 90, 695-700
9003671	CIF	Al1.27 Fe0.42 K0.09 Mg2.13 Na0.46 O12 Si3.12	C -1	5.31; 9.18; 9.754 96.2; 96.5; 89.9	469.621	Kogure, T.; Miyawaki, R.; Banno, Y. The true structure of wonesite, an interlayer-deficient trioctahedral sodium mica American Mineralogist, 2005, 90, 725-731
9003672	CIF	Al2.02 Ca0.04 Cr0.01 F0.9 Fe0.52 H1.1 K0.01 Li2.57 Mg1.82 Mn0.02 Na0.67 O23.1 Si7.96 Zn0.01	C 1 2/m 1	9.368; 17.616; 5.271 90; 102.38; 90	849.629	Oberti, R.; Camara, F.; Ottolini, L. Clinoholmquistite discredited: The new amphibole end-member fluoro-sodic-pedrizite sample from Tastyg spodumene deposit, Tuva, Siberia, Russia American Mineralogist, 2005, 90, 732-736
9003673	CIF	Al0.144 B0.008 Ca1.85 F0.33 Fe0.18 H1.67 K0.1 Mg4.75 Mn0.01 Na0.31 O23.67 Si7.928 Ti0.01 Zn0.01	C 1 2/m 1	9.848; 18.049; 5.279 90; 104.73; 90	907.486	Oberti, R.; Camara, F.; Ottolini, L. Clinoholmquistite discredited: The new amphibole end-member fluoro-sodic-pedrizite sample from Tastyg spodumene deposit, Tuva, Siberia, Russia American Mineralogist, 2005, 90, 732-736
9003674	CIF	Ca Ge O3	I 41/a :2	12.535; 12.535; 12.37 90; 90; 90	1943.65	Nakatsuka, A.; Chaya, H.; Yoshiasa, A. Crystal structure of single-crystal CaGeO3 tetragonal garnet synthesized at 3 GPa and 1000 C American Mineralogist, 2005, 90, 755-757
9003675	CIF	Ca Ge O3	I 41/a	12.535; 12.535; 12.37 90; 90; 90	1943.65	Nakatsuka, A.; Chaya, H.; Yoshiasa, A. Crystal structure of single-crystal CaGeO3 tetragonal garnet synthesized at 3 GPa and 1000 C Note: alternate origin, resulting in coordinates similar to some majorite refinements American Mineralogist, 2005, 90, 732-736
9003676	CIF	Mn5 O15 Si5	C -1	9.8381; 10.5361; 12.2381 108.697; 103.335; 82.191	1166.56	Nelson, W. R.; Griffen, D. T. Crystal chemistry of Zn-rich rhodonite ("fowlerite") Sample: 15-4018 Note: see samples 15-4029 and 15-4024 for plausible typical "fowlerite" and rhodonite cation distributions American Mineralogist, 2005, 90, 969-983
9003677	CIF	Ca1.001 Fe0.209 Mg0.13 Mn3.275 O15 Si5 Zn0.41	C -1	9.7718; 10.5084; 12.2256 108.606; 103.017; 82.482	1156.84	Nelson, W. R.; Griffen, D. T. Crystal chemistry of Zn-rich rhodonite ("fowlerite") Sample: 15-4024 Note: this is a plausible typical cation distribution for "fowlerite" American Mineralogist, 2005, 90, 969-983
9003678	CIF	Mn5 O15 Si5	C -1	9.7999; 10.5176; 12.2365 108.587; 103.185; 82.32	1161.4	Nelson, W. R.; Griffen, D. T. Crystal chemistry of Zn-rich rhodonite ("fowlerite") Sample: 15-4025 Note: see samples 15-4029 and 15-4024 for plausible typical fowlerite and rhodonite cation distributions American Mineralogist, 2005, 90, 969-983
9003679	CIF	Mn5 O15 Si5	C -1	9.7902; 10.5184; 12.223 108.644; 103.159; 82.308	1158.78	Nelson, W. R.; Griffen, D. T. Crystal chemistry of Zn-rich rhodonite ("fowlerite") Sample: 15-4026 Note: see samples 15-4029 and 15-4024 for plausible typical fowlerite and rhodonite cation distributions American Mineralogist, 2005, 90, 969-983
9003680	CIF	Mn5 O15 Si5	C -1	9.8451; 10.5389; 12.2414 108.692; 103.299; 82.184	1168.19	Nelson, W. R.; Griffen, D. T. Crystal chemistry of Zn-rich rhodonite ("fowlerite") Sample: 15-4030 Note: see samples 15-4029 and 15-4024 for plausible typical fowlerite and rhodonite cation distributions American Mineralogist, 2005, 90, 969-983
9003681	CIF	Mn5 O15 Si5	C -1	9.8121; 10.5187; 12.218 108.651; 103.217; 82.308	1160.63	Nelson, W. R.; Griffen, D. T. Crystal chemistry of Zn-rich rhodonite ("fowlerite") Sample: 15-4031 Note: see samples 15-4029 and 15-4024 for plausible typical fowlerite and rhodonite cation distributions American Mineralogist, 2005, 90, 969-983
9003682	CIF	Mn5 O15 Si5	C -1	9.7834; 10.5023; 12.2338 108.682; 103.273; 82.213	1156.34	Nelson, W. R.; Griffen, D. T. Crystal chemistry of Zn-rich rhodonite ("fowlerite") Sample: 15-4033 Note: see samples 15-4029 and 15-4024 for plausible typical fowlerite and rhodonite cation distributions American Mineralogist, 2005, 90, 969-983
9003683	CIF	Mn5 O15 Si5	C -1	9.7648; 10.4912; 12.2228 108.671; 103.177; 82.284	1152.47	Nelson, W. R.; Griffen, D. T. Crystal chemistry of Zn-rich rhodonite ("fowlerite") Sample: 15-4034 Note: see samples 15-4029 and 15-4024 for plausible typical fowlerite and rhodonite cation distributions American Mineralogist, 2005, 90, 969-983
9003684	CIF	Ca Mn3 O15 Si5 Zn	C -1	9.8456; 10.4992; 12.2005 108.726; 103.724; 82.113	1157.76	Nelson, W. R.; Griffen, D. T. Crystal chemistry of Zn-rich rhodonite ("fowlerite") Sample: 15-4006 Note: see samples 15-4029 and 15-4024 for plausible typical fowlerite and rhodonite cation distributions American Mineralogist, 2005, 90, 969-983
9003685	CIF	Ca Mn3 O15 Si5 Zn	C -1	9.8768; 10.5222; 12.218 108.748; 103.781; 82.037	1165.12	Nelson, W. R.; Griffen, D. T. Crystal chemistry of Zn-rich rhodonite ("fowlerite") Sample: 15-4014 Note: see samples 15-4029 and 15-4024 for plausible typical fowlerite and rhodonite cation distributions American Mineralogist, 2005, 90, 969-983
9003686	CIF	Ca Mn3 O15 Si5 Zn	C -1	9.8393; 10.4941; 12.1977 108.751; 103.751; 82.091	1155.87	Nelson, W. R.; Griffen, D. T. Crystal chemistry of Zn-rich rhodonite ("fowlerite") Sample: 15-4020 Note: see samples 15-4029 and 15-4024 for plausible typical fowlerite and rhodonite cation distributions American Mineralogist, 2005, 90, 969-983
9003687	CIF	Ca Mn3 O15 Si5 Zn	C -1	9.8337; 10.4987; 12.1966 108.699; 103.597; 82.221	1156.83	Nelson, W. R.; Griffen, D. T. Crystal chemistry of Zn-rich rhodonite ("fowlerite") Sample: 15-4027 Note: see samples 15-4029 and 15-4024 for plausible typical fowlerite and rhodonite cation distributions American Mineralogist, 2005, 90, 969-983
9003688	CIF	Ca Mn3 O15 Si5 Zn	C -1	9.864; 10.5237; 12.218 108.727; 103.705; 82.082	1164.33	Nelson, W. R.; Griffen, D. T. Crystal chemistry of Zn-rich rhodonite ("fowlerite") Sample: 15-4028 Note: see samples 15-4029 and 15-4024 for plausible typical fowlerite and rhodonite cation distributions American Mineralogist, 2005, 90, 969-983
9003689	CIF	Ca0.3 Fe0.4 Mg0.1 Mn4.292 O15 Si5 Zn0.005	C -1	9.8793; 10.5298; 12.2257 108.744; 103.752; 82.03	1167.14	Nelson, W. R.; Griffen, D. T. Crystal chemistry of Zn-rich rhodonite ("fowlerite") Sample: 15-4029 Note: this is a plausible typical cation distribution for rhodonite American Mineralogist, 2005, 90, 969-983
9003690	CIF	Ca Mn3 O15 Si5 Zn	C -1	9.8719; 10.5262; 12.2214 108.743; 103.728; 82.049	1165.6	Nelson, W. R.; Griffen, D. T. Crystal chemistry of Zn-rich rhodonite ("fowlerite") Sample: 15-4040 Note: see samples 15-4029 and 15-4024 for plausible typical fowlerite and rhodonite cation distributions American Mineralogist, 2005, 90, 969-983
9003691	CIF	Ca Mn3 O15 Si5 Zn	C -1	9.8905; 10.5423; 12.2294 108.739; 103.773; 82.05	1170.18	Nelson, W. R.; Griffen, D. T. Crystal chemistry of Zn-rich rhodonite ("fowlerite") Sample: 15-4041 Note: see samples 15-4029 and 15-4024 for plausible typical fowlerite and rhodonite cation distributions American Mineralogist, 2005, 90, 969-983
9003692	CIF	H4 Mg3 O13 Si4	C 1 2/m 1	5.323; 9.203; 10.216 90; 99.98; 90	492.884	Comodi, P.; Fumagalli, P.; Nazzareni, S.; Zanazzi, P. F. The 10 A phase: Crystal structure from single-crystal X-ray data American Mineralogist, 2005, 90, 1012-1016
9003693	CIF	Ca1.02 H2 K0.954 Mg5 Na0.98 O24 Si8	C 1 2/m 1	10.0439; 17.9883; 5.2708 90; 104.803; 90	920.683	Senda, K.; Ishida, K.; Jenkins, D. M. X-ray Rietveld refinement and FTIR spectra of synthetic (Si,Ge)-richterites Sample: KGe0Ri, K in A site, Si100Ge0 American Mineralogist, 2005, 90, 1062-1071
9003694	CIF	Ca0.98 H2 Mg5 Na1.87 O24 Si8	C 1 2/m 1	9.9032; 17.9885; 5.2692 90; 104.25; 90	909.793	Senda, K.; Ishida, K.; Jenkins, D. M. X-ray Rietveld refinement and FTIR spectra of synthetic (Si,Ge)-richterites Sample: Ge0Ri, Na in A site, Si100Ge0 American Mineralogist, 2005, 90, 1062-1071
9003695	CIF	Ca0.9 Ge2.04 H2 Mg5 Na1.54 O24 Si5.96	C 1 2/m 1	10.0144; 18.071; 5.3058 90; 104.625; 90	929.081	Senda, K.; Ishida, K.; Jenkins, D. M. X-ray Rietveld refinement and FTIR spectra of synthetic (Si,Ge)-richterites Sample: Ge2Ri, Si74Ge26 American Mineralogist, 2005, 90, 1062-1071
9003696	CIF	Ca0.98 Ge4.12 H2 Mg5 Na1.47 O24 Si3.88	C 1 2/m 1	10.1237; 18.147; 5.3386 90; 105.067; 90	947.063	Senda, K.; Ishida, K.; Jenkins, D. M. X-ray Rietveld refinement and FTIR spectra of synthetic (Si,Ge)-richterites Sample: Ge4Ri, Si48Ge52 American Mineralogist, 2005, 90, 1062-1071
9003697	CIF	Ca0.88 Ge6.08 H2 Mg5 Na1.58 O24 Si1.92	C 1 2/m 1	10.2255; 18.2144; 5.3683 90; 105.555; 90	963.232	Senda, K.; Ishida, K.; Jenkins, D. M. X-ray Rietveld refinement and FTIR spectra of synthetic (Si,Ge)-richterites Sample: Ge6Ri, Si24Ge76 American Mineralogist, 2005, 90, 1062-1071
9003698	CIF	Ca0.84 Ge8 H2 Mg5 Na1.62 O24	C 1 2/m 1	10.3244; 18.282; 5.3994 90; 106.015; 90	979.587	Senda, K.; Ishida, K.; Jenkins, D. M. X-ray Rietveld refinement and FTIR spectra of synthetic (Si,Ge)-richterites Sample: Ge8Ri, Si0Ge100 American Mineralogist, 2005, 90, 1062-1071
9003699	CIF	As9.3 S14 Sb0.7	P n a 21	25.262; 14.563; 6.492 90; 90; 90	2388.34	Bonazzi, P.; Lampronti, G. I.; Bindi, L.; Zandari, S. Wakabayashilite, [(As,Sb)6S9][As4S5]: crystal structure, psuedosymmetry, twinning, and revised chemical formula Sample: White Caps Mine, Nevada American Mineralogist, 2005, 90, 1108-1114
9003700	CIF	Al Na O8 Si3	C -1	7.7176; 12.5592; 7.0113 93.963; 117.177; 88.132	603.111	Benusa, M. D.; Angel, R. J.; Ross, N. L. Compression of albite, NaAlSi3O8 Sample: Amelia Court House, Virginia locality P = 6.489 GPa American Mineralogist, 2005, 90, 1115-1120
9003701	CIF	Al Na O8 Si3	C -1	7.5713; 12.517; 6.9697 93.797; 117.448; 87.508	584.814	Benusa, M. D.; Angel, R. J.; Ross, N. L. Compression of albite, NaAlSi3O8 Sample: Amelia Court House, Virginia locality P = 8.411 GPa American Mineralogist, 2005, 90, 1115-1120
9003702	CIF	Al Na O8 Si3	C -1	7.5028; 12.4933; 6.9463 93.903; 117.791; 86.786	574.453	Benusa, M. D.; Angel, R. J.; Ross, N. L. Compression of albite, NaAlSi3O8 Sample: Amelia Court House, Virginia locality P = 9.431 GPa American Mineralogist, 2005, 90, 1115-1120
9003703	CIF	Cr2 O4 Zn	F d -3 m :2	8.3291; 8.3291; 8.3291 90; 90; 90	577.822	Levy, D.; Diella, V.; Pavese, A.; Dapiaggi, M.; Sani, A. P-V equation of state, thermal expansion, and P-T stability of synthetic zincochromite (ZnCr2O4 spinel) Sample: T = 298 K American Mineralogist, 2005, 90, 1157-1162
9003704	CIF	Cr2 O4 Zn	F d -3 m :2	8.333; 8.333; 8.333 90; 90; 90	578.634	Levy, D.; Diella, V.; Pavese, A.; Dapiaggi, M.; Sani, A. P-V equation of state, thermal expansion, and P-T stability of synthetic zincochromite (ZnCr2O4 spinel) Sample: T = 393 K American Mineralogist, 2005, 90, 1157-1162
9003705	CIF	Cr2 O4 Zn	F d -3 m :2	8.3391; 8.3391; 8.3391 90; 90; 90	579.906	Levy, D.; Diella, V.; Pavese, A.; Dapiaggi, M.; Sani, A. P-V equation of state, thermal expansion, and P-T stability of synthetic zincochromite (ZnCr2O4 spinel) Sample: T = 463 K American Mineralogist, 2005, 90, 1157-1162
9003706	CIF	Cr2 O4 Zn	F d -3 m :2	8.3456; 8.3456; 8.3456 90; 90; 90	581.263	Levy, D.; Diella, V.; Pavese, A.; Dapiaggi, M.; Sani, A. P-V equation of state, thermal expansion, and P-T stability of synthetic zincochromite (ZnCr2O4 spinel) Sample: T = 613 K American Mineralogist, 2005, 90, 1157-1162
9003707	CIF	Cr2 O4 Zn	F d -3 m :2	8.3519; 8.3519; 8.3519 90; 90; 90	582.58	Levy, D.; Diella, V.; Pavese, A.; Dapiaggi, M.; Sani, A. P-V equation of state, thermal expansion, and P-T stability of synthetic zincochromite (ZnCr2O4 spinel) Sample: T = 702 K American Mineralogist, 2005, 90, 1157-1162
9003708	CIF	Cr2 O4 Zn	F d -3 m :2	8.3588; 8.3588; 8.3588 90; 90; 90	584.025	Levy, D.; Diella, V.; Pavese, A.; Dapiaggi, M.; Sani, A. P-V equation of state, thermal expansion, and P-T stability of synthetic zincochromite (ZnCr2O4 spinel) Sample: T = 788 K American Mineralogist, 2005, 90, 1157-1162
9003709	CIF	Cr2 O4 Zn	F d -3 m :2	8.3654; 8.3654; 8.3654 90; 90; 90	585.41	Levy, D.; Diella, V.; Pavese, A.; Dapiaggi, M.; Sani, A. P-V equation of state, thermal expansion, and P-T stability of synthetic zincochromite (ZnCr2O4 spinel) Sample: T = 901 K American Mineralogist, 2005, 90, 1157-1162
9003710	CIF	Cr2 O4 Zn	F d -3 m :2	8.3716; 8.3716; 8.3716 90; 90; 90	586.713	Levy, D.; Diella, V.; Pavese, A.; Dapiaggi, M.; Sani, A. P-V equation of state, thermal expansion, and P-T stability of synthetic zincochromite (ZnCr2O4 spinel) Sample: T = 994 K American Mineralogist, 2005, 90, 1157-1162
9003711	CIF	Cr2 O4 Zn	F d -3 m :2	8.3777; 8.3777; 8.3777 90; 90; 90	587.996	Levy, D.; Diella, V.; Pavese, A.; Dapiaggi, M.; Sani, A. P-V equation of state, thermal expansion, and P-T stability of synthetic zincochromite (ZnCr2O4 spinel) Sample: T = 1072 K American Mineralogist, 2005, 90, 1157-1162
9003712	CIF	Cr2 O4 Zn	F d -3 m :2	8.3834; 8.3834; 8.3834 90; 90; 90	589.197	Levy, D.; Diella, V.; Pavese, A.; Dapiaggi, M.; Sani, A. P-V equation of state, thermal expansion, and P-T stability of synthetic zincochromite (ZnCr2O4 spinel) Sample: T = 1162 K American Mineralogist, 2005, 90, 1157-1162
9003713	CIF	Cr2 O4 Zn	F d -3 m :2	8.388; 8.388; 8.388 90; 90; 90	590.167	Levy, D.; Diella, V.; Pavese, A.; Dapiaggi, M.; Sani, A. P-V equation of state, thermal expansion, and P-T stability of synthetic zincochromite (ZnCr2O4 spinel) Sample: T = 1236 K American Mineralogist, 2005, 90, 1157-1162
9003714	CIF	Al1.89 F0.03 Fe1.71 H1.97 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
9003715	CIF	Al1.97 F0.03 Fe1.23 H1.97 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
9003716	CIF	Al1.98 F0.02 Fe1.2 H1.98 Li1.71 Mg1.89 Mn0.01 Na0.03 O23.98 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
9003717	CIF	Al1.76 F0.07 Fe1.2 H1.93 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
9003718	CIF	Al1.34 F0.09 Fe1.26 H1.91 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
9003719	CIF	Al1.3 F0.13 Fe1.3 H1.87 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
9003720	CIF	Al1.33 F0.1 Fe1.26 H1.9 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
9003721	CIF	H55.7 Na5.67 O47.48 Si18	P 63/m m c	18.2343; 18.2343; 7.6371 90; 90; 120	2199.06	Arletti, R.; Galli, E.; Vezzalini, G.; Wise, W. S. Mazzite-Na, a new zeolite from Boron, California: Its description and crystal structure Sample: US Borax Mine, Boron, Ca American Mineralogist, 2005, 90, 1186-1191
9003722	CIF	Ca0.36 Mg0.81 Na0.56 O6 Si2.27	C 1 2/c 1	9.5792; 8.7588; 5.261 90; 107.199; 90	421.672	Yang, H.; Konzett, J. Crystal chemistry of a high-pressure C2/c clinopyroxene with six-coordinated silicon American Mineralogist, 2005, 90, 1223-1226
9003723	CIF	Cu1.375 Fe0.275 S	F m -3 m	21.88; 21.88; 21.88 90; 90; 90	10474.7	Ding, Y.; Veblen, D. R.; Prewitt, C. T. High-resolution transmission electron microscopy (HRTEM) study of the 4a and 6a superstructure of bornite Cu5FeS4 Sample: 4a-1 superstructure model Note: Occupancies calculated assuming complete Cu-Fe disorder American Mineralogist, 2005, 90, 1256-1264
9003724	CIF	Cu2 Fe S2	F -4 3 m	10.7; 10.7; 10.7 90; 90; 90	1225.04	Ding, Y.; Veblen, D. R.; Prewitt, C. T. Possible Fe/Cu ordering schemes in the 2a superstructure of bornite (Cu5FeS4) Sample: 2a Cu(anti) superstructure model, alternative 1 American Mineralogist, 2005, 90, 1265-1269
9003725	CIF	Cu2 Fe S2	F -4 3 m	10.7; 10.7; 10.7 90; 90; 90	1225.04	Ding, Y.; Veblen, D. R.; Prewitt, C. T. Possible Fe/Cu ordering schemes in the 2a superstructure of bornite (Cu5FeS4) Sample: 2a Cu(anti) superstructure model, alternative 2 American Mineralogist, 2005, 90, 1265-1269
9003726	CIF	Cu2 Fe S2	F -4 3 m	10.71; 10.71; 10.71 90; 90; 90	1228.48	Ding, Y.; Veblen, D. R.; Prewitt, C. T. Possible Fe/Cu ordering schemes in the 2a superstructure of bornite (Cu5FeS4) Sample: 2a CuFe(anti) superstructure model, alternative 1 Note: Energetically preferred model American Mineralogist, 2005, 90, 1265-1269
9003727	CIF	Cu2 Fe S2	F -4 3 m	10.71; 10.71; 10.71 90; 90; 90	1228.48	Ding, Y.; Veblen, D. R.; Prewitt, C. T. Possible Fe/Cu ordering schemes in the 2a superstructure of bornite (Cu5FeS4) Sample: 2a CuFe(anti) superstructure model, alternative 2 Note: Energetically preferred model American Mineralogist, 2005, 90, 1265-1269
9003728	CIF	Ca0.001 Fe0.202 Mn0.767 Nb1.91 O6 Sc0.001 Sn0.001 Ta0.08 Ti0.036 W0.002	P b c n	14.2877; 5.7363; 5.0561 90; 90; 90	414.391	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: BRA n3 Qm=1 from S. Jose de Safira, Minas Gerais, Brazil American Mineralogist, 2005, 90, 1291-1300
9003729	CIF	Ca0.001 Fe0.462 Mn0.476 Nb1.806 O6 Sc0.045 Sn0.004 Ta0.086 Ti0.116 W0.004	P b c n	14.3267; 5.7392; 5.0674 90; 90; 90	416.661	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: AMB n3 Qm=1 from Ambatofotsikely, Madagascar American Mineralogist, 2005, 90, 1291-1300
9003730	CIF	Ca0.001 Fe0.534 Mn0.457 Nb1.836 O6 Sn0.001 Ta0.094 Ti0.063 W0.014	P b c n	14.3434; 5.7415; 5.0665 90; 90; 90	417.24	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: RIO n5 Qm=1 from Rio Arriba Co., Globe Mine, U.S.A. American Mineralogist, 2005, 90, 1291-1300
9003731	CIF	Ca0.008 Fe0.806 Mn0.148 Nb1.802 O6 Sc0.001 Sn0.003 Ta0.152 Ti0.08	P b c n	14.4003; 5.7501; 5.0784 90; 90; 90	420.508	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: KRA n3p Qm=1 from Kragero, Norway American Mineralogist, 2005, 90, 1291-1300
9003732	CIF	Fe0.263 Mn0.07 Nb0.633 O2 Ta0.034	P b c n	14.2427; 5.729; 5.0856 90; 90; 90	414.967	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: BRA n18 Qm=0.618 from S. Jose de Safira, Minas Gerais, Brazil Note: Occupancies calculated assuming complete Fe/Mn disorder American Mineralogist, 2005, 90, 1291-1300
9003733	CIF	Fe0.264 Mn0.07 Nb0.633 O2 Ta0.034	P b c n	14.2445; 5.7265; 5.0789 90; 90; 90	414.292	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: BRA n18 Qm=0.685 from S. Jose de Safira, Minas Gerais, Brazil Sample: Annealed at T = 600 C for t = 20 m Note: Occupancies calculated assuming complete Fe/Mn disorder American Mineralogist, 2005, 90, 1291-1300
9003734	CIF	Fe0.263 Mn0.07 Nb0.633 O2 Ta0.034	P b c n	14.2501; 5.7263; 5.0767 90; 90; 90	414.26	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: BRA n18 Qm=0.714 from S. Jose de Safira, Minas Gerais, Brazil Sample: Annealed at T = 650 C for t = 20 m Note: Occupancies calculated assuming complete Fe/Mn disorder American Mineralogist, 2005, 90, 1291-1300
9003735	CIF	Fe0.264 Mn0.07 Nb0.633 O2 Ta0.033	P b c n	14.2582; 5.729; 5.0748 90; 90; 90	414.536	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: BRA n18 Qm=0.745 from S. Jose de Safira, Minas Gerais, Brazil Sample: Annealed at T = 650 C for t = 200 m Note: Occupancies calculated assuming complete Fe/Mn disorder American Mineralogist, 2005, 90, 1291-1300
9003736	CIF	Fe0.264 Mn0.07 Nb0.633 O2 Ta0.034	P b c n	14.26; 5.7293; 5.0746 90; 90; 90	414.594	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: BRA n18 Qm=0.752 from S. Jose de Safira, Minas Gerais, Brazil Sample: Annealed at T = 700 C for t = 5 m Note: Occupancies calculated assuming complete Fe/Mn disorder American Mineralogist, 2005, 90, 1291-1300
9003737	CIF	Fe0.79 Mn0.209 Nb1.901 O6 Ta0.1	P b c n	14.2658; 5.7299; 5.0748 90; 90; 90	414.822	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: BRA n18 Qm=0.759 from S. Jose de Safira, Minas Gerais, Brazil Sample: Annealed at T = 700 C for t = 20 m Note: Occupancies calculated assuming complete Fe/Mn disorder American Mineralogist, 2005, 90, 1291-1300
9003738	CIF	Fe0.791 Mn0.209 Nb1.9 O6 Ta0.1	P b c n	14.2733; 5.7317; 5.0646 90; 90; 90	414.336	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: BRA n18 Qm=0.898 from S. Jose de Safira, Minas Gerais, Brazil Sample: Annealed at T = 800 C for t = 7 m Note: Occupancies calculated assuming complete Fe/Mn disorder American Mineralogist, 2005, 90, 1291-1300
9003739	CIF	Fe0.791 Mn0.209 Nb1.9 O6 Ta0.1	P b c n	14.2744; 5.7321; 5.0616 90; 90; 90	414.152	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: BRA n18 Qm=0.902 from S. Jose de Safira, Minas Gerais, Brazil Sample: Annealed at T = 800 C for t = 40 m Note: Occupancies calculated assuming complete Fe/Mn disorder American Mineralogist, 2005, 90, 1291-1300
9003740	CIF	Fe0.791 Mn0.209 Nb1.898 O6 Ta0.102	P b c n	14.2852; 5.7361; 5.0574 90; 90; 90	414.41	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: BRA n18 Qm=0.988 from S. Jose de Safira, Minas Gerais, Brazil Sample: Annealed at T = 950 C for t = 3 h Note: Occupancies calculated assuming complete Fe/Mn disorder American Mineralogist, 2005, 90, 1291-1300
9003741	CIF	Ca0.009 Fe0.141 Mn0.789 Nb1.775 O6 Ta0.178 Ti0.028	P b c n	14.325; 5.744; 5.113 90; 90; 90	420.712	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: KRA n4 Qm=0.565 from Kragero, Norway Note: Occupancies calculated assuming complete Fe/Mn disorder American Mineralogist, 2005, 90, 1291-1300
9003742	CIF	Ca0.008 Fe0.142 Mn0.786 Nb1.775 O6 Ta0.178 Ti0.03	P b c n	14.344; 5.739; 5.105 90; 90; 90	420.245	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: KRA n4 Qm=0.674 from Kragero, Norway Sample: Annealed at T = 500 C for t = 15 h Note: Occupancies calculated assuming complete Fe/Mn disorder American Mineralogist, 2005, 90, 1291-1300
9003743	CIF	Ca0.008 Fe0.14 Mn0.786 Nb1.775 O6 Ta0.178 Ti0.032	P b c n	14.334; 5.737; 5.096 90; 90; 90	419.065	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: KRA n4 Qm=0.742 from Kragero, Norway Sample: Annealed at T = 530 C for t = 92 h Note: Occupancies calculated assuming complete Fe/Mn disorder American Mineralogist, 2005, 90, 1291-1300
9003744	CIF	Ca0.008 Fe0.141 Mn0.785 Nb1.775 O6 Ta0.178 Ti0.032	P b c n	14.352; 5.74; 5.093 90; 90; 90	419.564	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: KRA n4 Qm=0.817 from Kragero, Norway Sample: Annealed at T = 600 C for t = 67 h Note: Occupancies calculated assuming complete Fe/Mn disorder American Mineralogist, 2005, 90, 1291-1300
9003745	CIF	Ca0.009 Fe0.14 Mn0.785 Nb1.775 O6 Ta0.177 Ti0.032	P b c n	14.352; 5.74; 5.09 90; 90; 90	419.317	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: KRA n4 Qm=0.844 from Kragero, Norway Sample: Annealed at T = 600 C for t = 177 h Note: Occupancies calculated assuming complete Fe/Mn disorder American Mineralogist, 2005, 90, 1291-1300
9003746	CIF	Ca0.009 Fe0.141 Mn0.783 Nb1.775 O6 Ta0.178 Ti0.032	P b c n	14.38; 5.745; 5.088 90; 90; 90	420.335	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: KRA n4 Qm=0.922 from Kragero, Norway Sample: Annealed at T = 700 C for t = 20 m Note: Occupancies calculated assuming complete Fe/Mn disorder American Mineralogist, 2005, 90, 1291-1300
9003747	CIF	Ca0.009 Fe0.14 Mn0.783 Nb1.774 O6 Ta0.179 Ti0.033	P b c n	14.38; 5.75; 5.084 90; 90; 90	420.371	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: KRA n4 Qm=0.960 from Kragero, Norway Sample: Annealed at T = 800 C for t = 15 m Note: Occupancies calculated assuming complete Fe/Mn disorder American Mineralogist, 2005, 90, 1291-1300
9003748	CIF	Ca0.01 Fe0.14 Mn0.782 Nb1.778 O6 Ta0.178 Ti0.034	P b c n	14.395; 5.753; 5.083 90; 90; 90	420.946	Tarantino S C; Zema M Mixing and ordering behavior in manganocolumbite-ferrocolumbite solid solution: A single-crystal X-ray diffraction study Sample: KRA n4 Qm=1 from Kragero, Norway Sample: Annealed at T = 800 C for t = 24 h Note: Occupancies calculated assuming complete Fe/Mn disorder American Mineralogist, 2005, 90, 1291-1300
9003749	CIF	Mg O3 Si	R -3 :H	4.729; 4.729; 13.559 90; 90; 120	262.601	Yamanaka, T.; Komatsu, Y.; Sugahara, M.; Nagai, T. Structure change of MgSiO3, MgGeO3, and MgTiO3 ilmenites under compression Sample: P = 0.0001 GPa American Mineralogist, 2005, 90, 1301-1307

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