Crystallography Open Database

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9017818 CIFFe3 H14.472 O12.236 S0.5P -3 1 m5.5241; 5.5241; 11.0113
90; 90; 120		291Simon, L.; Francois, M.; Refait, P.; Renaudin, G.; Lelaurain, M.; Genin, J. M. R.
Structure of Fe(II-III) layered double hydroxysulphate green rust two from Rietveld analysis
Solid State Sciences, 2003, 5, 327-334
9017419 CIFAl0.49 Fe0.5 K0.99 O8 Si3.01C 1 2/m 18.655; 13.101; 7.25
90; 116.02; 90		738.747Lebedeva, Y. S.; Pushcharovsky, D. Y.; Pasero, M.; Merlino, S.; Kashaev, A. A.; Taroev, V. K.; Goettlicher, J.; Kroll, H.; Pentinghaus, H.; Suvorova, L. F.; Wulf-Bernodat H; Lashkevich, V. V.
Synthesis and crystal structure of low ferrialuminosilicate sanidine
Crystallography Reports, 2003, 48, 919-924
9016706 CIFC Ca O3R -3 c :H4.9844; 4.9844; 17.0376
90; 90; 120		366.577Ondrus, P.; Veselovsky, F.; Gabasova, A.; Hlousek, J.; Srein, V.; Vavrnn, I.; Skala, R.; Sejkora, J.; Drabek, M.
Primary minerals of the Jachymov ore district
Journal of the Czech Geological Society, 2003, 48, 19-147
9016493 CIFFe0.11 S0.99 Zn0.9F -4 3 m5.4174; 5.4174; 5.4174
90; 90; 90		158.991Ondrus, P.; Veselovsky, F.; Gabasova, A.; Hlousek, J.; Srein, V.; Vavrnn, I.; Skala, R.; Sejkora, J.; Drabek, M.
Primary minerals of the Jachymov ore district Sample J1215P
Journal of the Czech Geological Society, 2003, 48, 19-147
9016429 CIFB H2 O2P 1 21/c 17.409; 7.666; 7.0421
90; 116.04; 90		359.371Baber, R. A.; Norman, N. C.; Orpen, A. G.; Rossi, J.
The solid-state structure of diboronic acid, B2(OH)4
New Journal of Chemistry, 2003, 27, 772-775
9016420 CIFAl7.308 B3 Ca0.011 F0.48 Fe0.021 H3.25 K0.002 Li0.378 Mn1.233 Na0.693 O30.57 Si5.928R 3 m :H15.9466; 15.9466; 7.1384
90; 90; 120		1572.06Ertl, A.; Hughes, J. M.; Prowatke, S.; Rossman, G. R.; London, D.; Fritz, E. A.
Mn-rich tourmaline from Austria: structure, chemistry, optical spectra, and relations to synthetic solid solutions Note: This sample may be named wrong Sample BT
American Mineralogist, 2003, 88, 1369-1376
9016375 CIFCl3.9 Cu18 H32.07 N0.66 O34.11 S0.18P 63/m m c15.739; 15.739; 9.127
90; 90; 120		1958Hibbs, D. E.; Leverett, P.; Williams, P. A.
A single crystal X-ray study of a sulphate-bearing buttgenbachite, Cu36Cl7.8(NO3)1.3(SO4)0.35(OH)62.2.5.2H2O, and a re-examination of the crystal chemistry of the buttgenbachite-connellite series Note: T = 288 K
Mineralogical Magazine, 2003, 67, 47-60
9016327 CIFCr2 O3R -3 c :H4.953; 4.953; 13.578
90; 90; 120		288.472Belokoneva, E. L.; Shcherbakova, Y. K.
Electron density in synthetic eskolaite Cr2O3 with a corundum structure and its relation to antiferromagnetic properties
Russian Journal of Inorganic Chemistry, 2003, 48, 861-869
9016224 CIFNa Nb0.95 O2.975 Ti0.05P b m a5.5528; 15.5597; 5.514
90; 90; 90		476.409Xu, H.; Su, Y.; Balmer, M. L.; Navrotsky, A.
A new series of oxygen-deficient perovskites in the NaTixNb1-xO3-.05x system: synthesis, crystal chemistry, and energetics Note: x = 0.05
Chemistry of Materials, 2003, 15, 1872-1878
9016137 CIFBa Be2 O7 Si2P m 1 111.618; 4.904; 4.655
89.94; 90; 90		265.217Rastsvetaeva, R. K.; Chukanov, N. V.
Crystal structure and microtwinning of a new mineral clinobarylite, BaBe2Si2O7
Doklady Akademii Nauk, 2003, 388, 205-207
9015995 CIFAs Co0.01 Ni0.97 S0.02P 63 m c3.619; 3.619; 5.036
90; 90; 120		57.121Ondrus, P.; Veselovsky, F.; Gabasova, A.; Hlousek, J.; Srein, V.; Vavrnn, I.; Skala, R.; Sejkora, J.; Drabek, M.
Primary minerals of the Jachymov ore district Sample MP511
Journal of the Czech Geological Society, 2003, 48, 19-147
9015824 CIFNa Nb0.8 O2.9 Ti0.2P b m a5.5303; 15.5677; 5.5072
90; 90; 90		474.137Xu, H.; Su, Y.; Balmer, M. L.; Navrotsky, A.
A new series of oxygen-deficient perovskites in the NaTixNb1-xO3-.05x system: synthesis, crystal chemistry, and energetics Note: x = 0.2
Chemistry of Materials, 2003, 15, 1872-1878
9015148 CIFNa Nb0.85 O2.925 Ti0.15P b m a5.5396; 15.5705; 5.5087
90; 90; 90		475.149Xu, H.; Su, Y.; Balmer, M. L.; Navrotsky, A.
A new series of oxygen-deficient perovskites in the NaTixNb1-xO3-.05x system: synthesis, crystal chemistry, and energetics Note: x = 0.15
Chemistry of Materials, 2003, 15, 1872-1878
9014916 CIFAl7.407 B3 Ca0.032 F0.48 Fe0.018 H3.33 K0.004 Li0.483 Mn1.143 Na0.773 O30.52 Si5.826 Ti0.006R 3 m :H15.941; 15.941; 7.136
90; 90; 120		1570.42Ertl, A.; Hughes, J. M.; Prowatke, S.; Rossman, G. R.; London, D.; Fritz, E. A.
Mn-rich tourmaline from Austria: structure, chemistry, optical spectra, and relations to synthetic solid solutions Note: This sample may be named wrong Sample P6
American Mineralogist, 2003, 88, 1369-1376
9014766 CIFCa H12 O17 Si2 U2P 1 21/a 113.947; 15.465; 6.626
90; 91.3; 90		1428.8Barinova, A. V.; Rastsvetaeva, R. K.; Sidorenko, G. A.; Verin, I. A.
Crystal structure of beta-uranophane from the Transbaikal region and its relation to the structure of the a modification
Crystallography Reports, 2003, 48, 12-15
9014738 CIFBi0.36 Ca0.19 Cu H0.64 O4.93 Pb0.43 VP n a m7.486; 9.62; 5.881
90; 90; 90		423.522Krause, W.; Kolitsch, U.; Bernhardt, H. J.; Effenberger, H.
Duhamelite discredited
Neues Jahrbuch fur Mineralogie, Monatshefte, 2003, 2003, 75-96
9014531 CIFNa Nb0.9 O2.95 Ti0.1P b m a5.5428; 15.5632; 5.5094
90; 90; 90		475.261Xu, H.; Su, Y.; Balmer, M. L.; Navrotsky, A.
A new series of oxygen-deficient perovskites in the NaTixNb1-xO3-.05x system: synthesis, crystal chemistry, and energetics Note: x = 0.1
Chemistry of Materials, 2003, 15, 1872-1878
9014483 CIFNa Nb O3P b m a5.5625; 15.5495; 5.5138
90; 90; 90		476.911Xu, H.; Su, Y.; Balmer, M. L.; Navrotsky, A.
A new series of oxygen-deficient perovskites in the NaTixNb1-xO3-.05x system: synthesis, crystal chemistry, and energetics Note: x = 0.00
Chemistry of Materials, 2003, 15, 1872-1878
9014399 CIFBa2 Cu O7 Si2P -4 21 m8.284; 8.284; 5.313
90; 90; 90		364.603Du, J. M.; Zeng, H. Y.; Song, L. J.; Dong, Z. C.; Ma, H. W.; Guo, G. C.; Huang, J. S.
Synthesis and structure of a new polymorph Ba2CuSi2O7 Note: known as beta-Ba2CuSi2O7
Jiegou Huaxue, 2003, 22, 33-36
9014148 CIFCl3.9 Cu18 H34.32 N0.66 O36.36 S0.18P 63/m m c15.739; 15.739; 9.127
90; 90; 120		1958Hibbs, D. E.; Leverett, P.; Williams, P. A.
A single crystal X-ray study of a sulphate-bearing buttgenbachite, Cu36Cl7.8(NO3)1.3(SO4)0.35(OH)62.2*5.2H2O, and a re-examination of the crystal chemistry of the buttgenbachite-connellite series Note: T = 100 K
Mineralogical Magazine, 2003, 67, 47-60
9014132 CIFCa H12 O17 Si2 U2P 1 21/a 113.947; 15.465; 6.626
90; 91.399; 90		1428.74Barinova, A. V.; Rastsvetaeva, R. K.; Sidorenko, G. A.; Verin, I. A.
Crystal structure of beta-uranophane from the Transbaikal region and its relation to the structure of the alpha modification
Crystallography Reports, 2003, 48, 12-15
9013993 CIFFe3 H30 O12.236 S0.5P -3 1 m5.5241; 5.5241; 11.0113
90; 90; 120		291Simon, L.; Francois, M.; Refait, P.; Renaudin, G.; Lelaurain, M.; Genin, J. M. R.
Structure of Fe(II-III) layered double hydroxysulphate green rust two from Rietveld analysis Locality: synthetic
Solid State Sciences, 2003, 5, 327-334
9013962 CIFCu3 H4 O8 SP n m a8.289; 6.079; 12.057
90; 90; 90		607.538Vilminot, S.; Richard-Plouet M; Andre, G.; Swierczynski, D.; Guillot, M.; Bouree-Vigneron F; Drillon, M.
Magnetic structure and properties of Cu3(OH)4SO4 made of triple chains of spins s=1/2,
Journal of Solid State Chemistry, 2003, 170, 255-264
9013114 CIFBa0.05 K0.95 Li Mg0.431 Mn1.569 Na2 O24 Si8 Ti0.34 V1.66C 1 c 116.45; 12.492; 9.995
90; 115.32; 90		1856.59Matsubara, S.; Miyawaki, R.; Kurosawa, M.; Suzuki, Y.
Watatsumiite, KNa2LiMn2V2Si8O24, a new mineral from the Tanohata mine, Iwate Prefecture, Japan Locality: metamorphosed manganese ore deposit, Tanohata mine, Iwate Prefecture, Japan
Journal of Mineralogical and Petrological Sciences, 2003, 98, 142-150
9012923 CIFC5 H18 N4 O21 P4 Sc3P 1 21/n 18.603; 15.476; 16.504
90; 96.877; 90		2181.53Bull, I.; Young, V.; Teat, S. J.; Peng, L.; Grey, C. P.; Parise, J. B.
Hydrothermal synthesis and structural characterization of four scandium phosphate frameworks
Chemistry of Materials, 2003, 15, 3818-3825
9012881 CIFC3.024 H8.064 D34 O17F d -3 m :217.092; 17.092; 17.092
90; 90; 90		4993.2Rawn, C. J.; Rondinone, A. J.; Chakoumakos, B. C.; Circone, S.; Stern, L. A.; Kirby, S. H.; Ishii, Y.
Neutron powder diffraction studies as a function of temperature of structure II hydrate formed from propane Sample: T = 12 K, C3H8*17D20
Canadian Journal of Physics, 2003, 81, 431-438
9012801 CIFMn Pb4 S14 Sb6P 1 21/c 14.0216; 19.178; 15.837
90; 91.89; 90		1220.78Leone, P.; Le Leuch, L. M.; Palvadeau, P.; Molinie, P.; Moelo, Y.
Single crystal structures and magnetic properties of two iron or manganese-lead-antimony sulfides: MPb4Sb6S14 (M: Fe, Mn) Loclaity: synthetic
Solid State Sciences, 2003, 5, 771-776
9012800 CIFFe Pb4 S14 Sb6P 1 21/c 14.0235; 19.074; 15.737
90; 91.89; 90		1207.07Leone, P.; Le Leuch, L. M.; Palvadeau, P.; Molinie, P.; Moelo, Y.
Single crystal structures and magnetic properties of two iron or manganese-lead-antimony sulfides: MPb4Sb6S14 (M: Fe, Mn)
Solid State Sciences, 2003, 5, 771-776
9012774 CIFC3 Ba2 F La O9P 1 21/m 113.396; 5.111; 6.672
90; 106.628; 90		437.709Krivovichev, S. V.; Armbruster, T.; Pekov, I. V.
Cation frameworks in structure of natural fluocarbonates of barium and rare-earth elements: crystal structure of kukharenkoite-(La), Ba2(La,Ce)(CO3)3F
Zapiski Vserossijskogo Mineralogicheskogo Obshchestva, 2003, 65-72
9012753 CIFCa4.6 F2.75 H2.05 K3 Mn0.4 Na3 O32.25 Si12C 1 m 118.846; 7.242; 12.65
90; 111.84; 90		1602.59Rastsvetaeva, R. K.; Rozenberg, K. A.; Khomyakov, A. P.; Rozhdestvenskaya, I. V.
Crystal structure of F-canasite
Doklady Chemistry, 2003, 391, 177-180
9012738 CIFC0.333 H0.667 O0.083F d -3 m :217.103; 17.103; 17.103
90; 90; 90		5002.84Jones, C. Y.; Marshall, S. L.; Chakoumakos, B. C.; Rawn, C. J.; Ishii, Y.
Structure and thermal expansivity of tetrahydrofuran deuterate determined by neutron powder diffraction Sample: cell T = 7 K, positions T = 5 K, guest molecule Note: occupancies of C11 and H14 switched to reproduce reported formula
Journal of Physical Chemistry B, 2003, 107, 6026-6031
9012737 CIFD2 OF d -3 m :217.262; 17.262; 17.262
90; 90; 90		5143.67Jones, C. Y.; Marshall, S. L.; Chakoumakos, B. C.; Rawn, C. J.; Ishii, Y.
Structure and thermal expansivity of tetrahydrofuran deuterate determined by neutron powder diffraction Sample: T = 265 K, host lattice
Journal of Physical Chemistry B, 2003, 107, 6026-6031
9012736 CIFD2 OF d -3 m :217.198; 17.198; 17.198
90; 90; 90		5086.67Jones, C. Y.; Marshall, S. L.; Chakoumakos, B. C.; Rawn, C. J.; Ishii, Y.
Structure and thermal expansivity of tetrahydrofuran deuterate determined by neutron powder diffraction Sample: T = 205 K, host lattice
Journal of Physical Chemistry B, 2003, 107, 6026-6031
9012735 CIFD2 OF d -3 m :217.15; 17.15; 17.15
90; 90; 90		5044.2Jones, C. Y.; Marshall, S. L.; Chakoumakos, B. C.; Rawn, C. J.; Ishii, Y.
Structure and thermal expansivity of tetrahydrofuran deuterate determined by neutron powder diffraction Sample: T = 140 K, host lattice
Journal of Physical Chemistry B, 2003, 107, 6026-6031
9012734 CIFD2 OF d -3 m :217.109; 17.109; 17.109
90; 90; 90		5008.11Jones, C. Y.; Marshall, S. L.; Chakoumakos, B. C.; Rawn, C. J.; Ishii, Y.
Structure and thermal expansivity of tetrahydrofuran deuterate determined by neutron powder diffraction Sample: T = 75 K, host lattice
Journal of Physical Chemistry B, 2003, 107, 6026-6031
9012733 CIFD2 OF d -3 m :217.103; 17.103; 17.103
90; 90; 90		5002.84Jones, C. Y.; Marshall, S. L.; Chakoumakos, B. C.; Rawn, C. J.; Ishii, Y.
Structure and thermal expansivity of tetrahydrofuran deuterate determined by neutron powder diffraction Sample: T = 7 K, host lattice Note: y(D7) corrected
Journal of Physical Chemistry B, 2003, 107, 6026-6031
9012659 CIFAs4 Cl Cu5 H10 Na O21 PbP 1 21/n 110.023; 19.55; 10.023
90; 90.02; 90		1964Zubkova, N. V.; Pushcharovsky, D. Y.; Sarp, H.; Teat, S. J.; MacLean, E. J.
Crystal structure of zdenekite NaPbCu5(AsO4)4Cl*5H2O
Crystallography Reports, 2003, 48, 939-943
9012658 CIFCa3.3 Ce0.33 Cl0.74 Fe2.1 H18.453 K0.3 La0.132 Mn1.398 Na9.627 Nb0.1 Nd0.036 O79.661 Si24.3 Sr0.504 Ti0.1 Zr3.4R 3 m :H14.167; 14.167; 30.081
90; 90; 120		5228.52Rastsvetaeva, R. K.; Chukanov, N. V.
Ikranite: composition and structure of a new mineral of the eudialyte group
Crystallography Reports, 2003, 48, 717-720
9012657 CIFBa3.3 Ca2.4 F8 Fe8 H4 K0.7 Mn7.4 Na2.2 Nb0.8 O68 Si16 Ti6.4 Zr0.8C 1 2 110.723; 13.826; 20.791
90; 95; 90		3070.67Rozenberg, K. A.; Rastsvetaeva, R. K.; Verin, I. A.
Crystal structure of surkhobite - new mineral from the family of titanosilicate micas
Crystallography Reports, 2003, 48, 384-389
9012655 CIFAl0.84 Ca0.82 F0.29 Fe2.1 H1.47 K0.13 Mg2.7 Mn0.02 Na2.05 O23.71 Si7.16 Ti0.17C 1 2/m 19.875; 18.01; 5.309
90; 104.39; 90		914.576Pushcharovsky, D. Y.; Lebedeva, Y. S.; Pekov, I. V.; Ferraris, G.; Novakova, A. A.; Ivaldi, G.
Crystal structure of magnesioferrikatophorite Locality: Turiy Cape, Kola Peninsula, Russia
Crystallography Reports, 2003, 48, 16-23
9012499 CIFPC m c e3.3199; 10.3678; 4.3154
90; 90; 90		148.536Crichton, W. A.; Mezouar, M.; Monaco, G.; Falconi, S.
Phosphorus: new in situ powder data from large-volume apparatus Locality: synthetic Sample: at P = 1.2 GPa and T = 1100 K
Powder Diffraction, 2003, 18, 155-158
9012373 CIFCa Mn2 O4P b c a6.2545; 9.8995; 9.627
90; 90; 90		596.069Zouari, S.; Ranno, L.; Cheikh-Rouhou A; Isnard, O.; Pernet, M.; Wolfers, P.; Strobel, P.
New model for the magnetic structure of the marokite-type oxide CaMn2O4 Note: reported bond lengths are inconsistent with reported structure Sample: T = 1.5 K
Journal of Alloys and Compounds, 2003, 353, 5-11
9012372 CIFCa Mn2 O4P b c m3.1492; 9.98; 9.66
90; 90; 90		303.604Zouari, S.; Ranno, L.; Cheikh-Rouhou A; Isnard, O.; Pernet, M.; Wolfers, P.; Strobel, P.
New model for the magnetic structure of the marokite-type oxide CaMn2O4 Sample: T = 280 K
Journal of Alloys and Compounds, 2003, 353, 5-11
9012283 CIFCa7.676 Nd0.324 O28 Ta7.705 Zr0.295C 1 2 112.761; 7.358; 24.565
90; 100.17; 90		2270.3Grey, I. E.; Mumme, W. G.; Ness, T. J.; Roth, R. S.; Smith, K. L.
Structural relations between weberite and zirconolite polytypes - refinements of doped 3T and 4M Ca2Ta2O7 and 3T CaZrTi2O7 Sample: T = 295 K, 4M weberite-type structure
Journal of Solid State Chemistry, 2003, 174, 285-295
9012282 CIFCa3.906 Nd0.154 O14 Ta3.78 Zr0.16P 31 2 17.356; 7.356; 18.116
90; 90; 120		848.939Grey, I. E.; Mumme, W. G.; Ness, T. J.; Roth, R. S.; Smith, K. L.
Structural relations between weberite and zirconolite polytypes - refinements of doped 3T and 4M Ca2Ta2O7 and 3T CaZrTi2O7 Sample: T = 123 K, 3T weberite-type structure
Journal of Solid State Chemistry, 2003, 174, 285-295
9012281 CIFAl F6 Na3P 1 21/n 15.4054; 5.5934; 7.7672
90; 89.81; 90		234.837Ross, K. C.; Mitchell, R. H.; Chakhmouradian, A. R.
The crystal structure of synthetic simmonsite, Na2LiAlF6
Journal of Solid State Chemistry, 2003, 172, 95-101
9012280 CIFAl F6 Na3P 1 21/n 15.4058; 5.5926; 7.7699
90; 90.195; 90		234.902Ross, K. C.; Mitchell, R. H.; Chakhmouradian, A. R.
The crystal structure of synthetic simmonsite, Na2LiAlF6
Journal of Solid State Chemistry, 2003, 172, 95-101
9012279 CIFAl F6 Li Na2P 1 21/n 15.2842; 5.3698; 7.5063
90; 89.98; 90		212.992Ross, K. C.; Mitchell, R. H.; Chakhmouradian, A. R.
The crystal structure of synthetic simmonsite, Na2LiAlF6
Journal of Solid State Chemistry, 2003, 172, 95-101
9011824 CIFAs2 H10 O21 Pb2 U3P 1 21/m 131.066; 17.303; 7.043
90; 96.492; 90		3761.58Locock, A. J.; Burns, P. C.
The structure of hugelite, an arsenate of the phosphuranylite group, and its relationship to dumontite Locality: Michael Mine, Weiler, Lahr, Black Forest, Baden-Wurttemburg, Germany Note: x(O11) corrected
Mineralogical Magazine, 2003, 67, 1109-1120
9011823 CIFNi3 PI -48.9499; 8.9499; 4.385
90; 90; 90		351.242Skala, R.; Drabek, M.
Nickelphosphide from the Vicenice octahedrite: Rietveld crystal structure refinement of synthetic analogue Sample: P-33/3
Mineralogical Magazine, 2003, 67, 783-792
9011822 CIFFe1.33 Ni1.67 PI -49.0127; 9.0127; 4.4473
90; 90; 90		361.249Skala, R.; Drabek, M.
Nickelphosphide from the Vicenice octahedrite: Rietveld crystal structure refinement of synthetic analogue Sample: P-44
Mineralogical Magazine, 2003, 67, 783-792
9011821 CIFFe0.53 O2 Sb0.47P 42/m n m4.6433; 4.6433; 3.0815
90; 90; 90		66.438Berlepsch, P.; Armbruster, T.; Brugger, J.; Criddle, A. J.; Graeser, S.
Tripuhyte, FeSbO4, revisited
Mineralogical Magazine, 2003, 67, 31-46
9011820 CIFFe0.47 O2 Sb0.53P 42/m n m4.625; 4.625; 3.059
90; 90; 90		65.434Berlepsch, P.; Armbruster, T.; Brugger, J.; Criddle, A. J.; Graeser, S.
Tripuhyte, FeSbO4, revisited
Mineralogical Magazine, 2003, 67, 31-46
9011819 CIFAs2 Cl4 O17 Pb14C 1 2/c 112.704; 22.576; 11.287
90; 118.37; 90		2848.38Bonaccorsi, E.; Pasero, M.
Crystal structure refinement of sahlinite, Pb14(AsO4)2O9Cl4
Mineralogical Magazine, 2003, 67, 15-21
9011769 CIFBa0.27 Ca1.105 Fe0.005 H42.44 K0.555 Mn0.025 Na0.7 Nb0.8 O35.064 Si8 Sr0.34 Ti3.2 Zn0.015C 1 2/m 114.484; 14.191; 7.907
90; 117.26; 90		1444.72Pekov, I. V.; Chukanov, N. V.; Ferraris, G.; Gula, A.; Pushcharovsky, D. Y.; Zadov, A. E.
Tsepinite-Ca,(Ca,K,Na,[])2(Ti,Nb)2(Si4O12)(OH,O)2*4H2O, a new mineral of the labuntsovite group from the Khibiny alkaline massif, Kola peninsula - novel disordered sites in the vuoriyarvite-type structure Locality: Lovchorrite mine, Hackman Valley, Yukspor Mountian, Khibiny massif, Kola Peninsula, Russia
Neues Jahrbuch fur Mineralogie, Monatshefte, 2003, 2003, 461-480
9011728 CIFD6 Na O14 S2 V3R -3 m :H7.27789; 7.27789; 16.8301
90; 90; 120		772.02Grohol, D.; Huang Qingzhen; Toby, B. H.; Lynn, J. W.; Lee, Y. S.; Nocera, D. G.
Powder neutron diffraction analysis and magnetic structure of kagome-type vanadium jarosite NaV3(OD)6(SO4)2 Sample: T = 217 K
Physical Review B - Condensed Matter, 2003, 68, 0944041-0944047
9011727 CIFD6 Na O14 S2 V3R -3 m :H7.27586; 7.27586; 16.7499
90; 90; 120		767.912Grohol, D.; Huang, Q.; Toby, B. H.; Lynn, J. W.; Lee, Y. S.; Nocera, D. G.
Powder neutron diffraction analysis and magnetic structure of kagome-type vanadium jarosite NaV3(OD)6(SO4)2 Sample: T = 16 K
Physical Review B - Condensed Matter, 2003, 68, 0944041-0944047
9011533 CIFCa O3 SiP -16.596; 9.223; 6.554
83.75; 77.28; 70.07		365.385Joswig, W.; Paulus, E. F.; Winkler, B.; Milman, V.
The crystal structure of CaSiO3-walstromite, a special isomorph of wollastonite-II
Zeitschrift fur Kristallographie, 2003, 218, 811-818
9011532 CIFCr4 H4 K2 O16 ZnP -16.794; 7.735; 7.834
88.97; 80.9; 64.57		366.545Fleck, M.; Kolitsch, U.
Natural and synthetic compounds with krohnkite-type chains. An update
Zeitschrift fur Kristallographie, 2003, 218, 553-567
9011531 CIFCa2 Fe0.89 H4 Mg0.11 O10 P2P -15.48; 5.759; 6.569
90.18; 102.62; 108.45		191.32Fleck, M.; Kolitsch, U.
Natural and synthetic compounds with krohnkite-type chains. An update
Zeitschrift fur Kristallographie, 2003, 218, 553-567
9011530 CIFH4 K2 Mn O10 Se2P -15.674; 6.608; 7.523
110.31; 95.69; 108.35		244.099Fleck, M.; Kolitsch, U.
Natural and synthetic compounds with krohnkite-type chains. An update
Zeitschrift fur Kristallographie, 2003, 218, 553-567
9011529 CIFH4 K2 Mg Mo2 O10P -15.884; 6.491; 7.7
111.67; 96.59; 108.62		249.795Fleck, M.; Kolitsch, U.
Natural and synthetic compounds with krohnkite-type chains. An update
Zeitschrift fur Kristallographie, 2003, 218, 553-567
9011528 CIFCr2 H4 K2 Mg O10P -15.674; 6.462; 7.517
110.38; 95.24; 109.86		236.026Fleck, M.; Kolitsch, U.
Natural and synthetic compounds with krohnkite-type chains. An update
Zeitschrift fur Kristallographie, 2003, 218, 553-567
9011527 CIFAs Cu0.5 H8 O10 UP 4/n m m :27.1065; 7.1065; 8.7095
90; 90; 90		439.85Hennig, C.; Reck, G.; Reich, T.; Robberg, A.; Kraus, W.; Sieler, J.
EXAFS and XRD investigations of zeunerite and meta-zeunerite Sample: Disordered
Zeitschrift fur Kristallographie, 2003, 218, 37-45
9011526 CIFAs Cu0.5 H4 O10 UP 4/n c c :27.1065; 7.1065; 17.4195
90; 90; 90		879.726Hennig, C.; Reck, G.; Reich, T.; Robberg, A.; Kraus, W.; Sieler, J.
EXAFS and XRD investigations of zeunerite and meta-zeunerite Sample: Ordered
Zeitschrift fur Kristallographie, 2003, 218, 37-45
9011525 CIFAs2 Cu H12.656 O24 U2I 4/m m m7.1751; 7.1751; 20.8728
90; 90; 90		1074.57Hennig, C.; Reck, G.; Reich, T.; Robberg, A.; Kraus, W.; Sieler, J.
EXAFS and XRD investigations of zeunerite and meta-zeunerite
Zeitschrift fur Kristallographie, 2003, 218, 37-45
9011305 CIFC Na2 O3C 1 2/m 18.898; 5.237; 5.996
90; 101.87; 90		273.432Dusek, M.; Chapuis, G.; Meyer, M.; Petricek, V.
Sodium carbonate revisited Sample: Delta phase, T = 110 K
Acta Crystallographica, Section B, 2003, 59, 337-352
9011304 CIFC Na2 O3C 1 2/m 18.92; 5.245; 6.05
90; 101.35; 90		277.516Dusek, M.; Chapuis, G.; Meyer, M.; Petricek, V.
Sodium carbonate revisited Sample: Gamma phase, T = 295 K
Acta Crystallographica, Section B, 2003, 59, 337-352
9010722 CIFB2 Ca Mg O5P 1 21/c 112.329; 11.146; 5.519
90; 101.62; 90		742.872Callegari, A.; Mazzi, F.; Tadini, C.
Modular aspects of the crystal structures of kurchatovite and clinokurchatovite Locality: Sayak, Kazackhstan
European Journal of Mineralogy, 2003, 15, 277-282
9010721 CIFB2 Ca Mg O5P b c a36.34; 11.135; 5.499
90; 90; 90		2225.15Callegari, A.; Mazzi, F.; Tadini, C.
Modular aspects of the crystal structures of kurchatovite and clinokurchatovite Locality: Solongo, Siberia
European Journal of Mineralogy, 2003, 15, 277-282
9010720 CIFC2.72 H26.5 Mg6 N0.34 O43.3 Si12P b m n12.709; 17.896; 15.775
90; 90; 90		3587.87Chiari, G.; Giustetto, R.; Ricchiardi, G.
Crystal structure refinements of palygorskite and Maya Blue from molecular modeling and powder synchrotron diffraction Sample: OP (3 cells+indigo)
European Journal of Mineralogy, 2003, 15, 21-33
9009954 CIFCa0.38 Fe0.36 H18 Mn1.26 Na6.24 Nb0.4 O54 Si18 Ti1.4 Zr0.42P -310.036; 10.036; 12.876
90; 90; 120		1123.14Yamnova, N. A.; Egorov-Tismenko Y K; Pekov, I. V.; Shchegol'kova, L. V.
Crystal structure of tisinalite Na2(Mn,Ca)1-x(Ti,Zr,Nb,Fe3+)[Si6O8(O,OH)10]
Crystallography Reports, 2003, 48, 551-556
9009850 CIFBi2 O3F m -3 m5.6549; 5.6549; 5.6549
90; 90; 90		180.832Yashima, M.; Ishimura, D.
Crystal structure and disorder of the fast oxide-ion conductor cubic Bi2O3 Note: sample at T = 778 deg C Note: this is called gamma-Bi2O3
Chemical Physics Letters, 2003, 378, 395-399
9009802 CIFCs0.601 F2 Li0.602 Mg2.398 O10 Si4C 1 2/m 15.2401; 9.0942; 10.7971
90; 99.21; 90		507.897Breu J; Seidl W; Stoll A
Disorder in smectites in dependence of the interlayer cation Note: hectorite structure Note: anisoU's taken from ICSD
Zeitschrift fur Anorganische und Allgemeine Chemie, 2003, 629, 503-515
9009779 CIFAl0.96 Ca1.538 O14 Th0.302 Ti2.6 Zr2.6P 31 2 17.228; 7.228; 16.805
90; 90; 120		760.336Grey, I. E.; Mumme, W. G.; Ness, T. J.; Roth, R. S.; Smith, K. L.
Structural relations between weberite and zirconolite polytypes - refinements of doped 3T and 4M Ca2Ta2O7 and 3T CaZrTi2O7 Locality: synthetic Sample: T = 123 K Note: polytype Zirconolite-3T
Journal of Solid State Chemistry, 2003, 174, 285-295
9009648 CIFAl2 Ba0.99 Eu0.01 O8 Si2P 63/m c m5.292; 5.292; 15.557
90; 90; 120		377.308Kremenovic, A.; Colomban, P.; Piriou, B.; Massiot, D.; Florian, P.
Structural and spectroscopic characterization of the quenched hexacelsian
Journal of Physics and Chemistry of Solids, 2003, 64, 2253-2268
9009561 CIFBa0.14 Ca0.2 H19.34 K0.42 Na0.2 Nb1.2 O32.02 Si8 Sr0.64 Ti2.8C 1 m 114.49; 14.23; 7.881
90; 117.28; 90		1444.27Rosenberg K A; Rastsvetaeva R K; Pekov I V; Chukanov N V; Verin I A
Crystal structure of Sr-rich tsepinite
Doklady Akademii Nauk SSSR, 2003, 393, 784-787
9009428 CIFFe0.5 O2 Sb0.5P 42/m n m4.6323; 4.6323; 9.203
90; 90; 90		197.48Basso, R.; Cabella, R.; Lucchetti, G.; Marescotti, P.; Martinelli, A.
Structural studies on synthetic and natural Fe-Sb-oxides of MO2 type Sample: case 3 refinement, not acceptable structure model
Neues Jahrbuch fur Mineralogie, Monatshefte, 2003, 2003, 407-420
9009427 CIFFe1.5 O6 Sb1.5P 42/m n m4.6326; 4.6326; 9.2031
90; 90; 90		197.508Basso, R.; Cabella, R.; Lucchetti, G.; Marescotti, P.; Martinelli, A.
Structural studies on synthetic and natural Fe-Sb-oxides of MO2 type Sample: case 2 refinement, not acceptable structure model
Neues Jahrbuch fur Mineralogie, Monatshefte, 2003, 2003, 407-420
9009426 CIFFe0.5 O2 Sb0.5P 42/m n m4.6353; 4.6353; 3.0694
90; 90; 90		65.949Basso, R.; Cabella, R.; Lucchetti, G.; Marescotti, P.; Martinelli, A.
Structural studies on synthetic and natural Fe-Sb-oxides of MO2 type Sample: case 1 refinement in the rutile structure This is the preferred structural model
Neues Jahrbuch fur Mineralogie, Monatshefte, 2003, 2003, 407-420
9009425 CIFFe0.5 O2 Sb0.5P 42/m n m4.6334; 4.6334; 3.0728
90; 90; 90		65.968Basso, R.; Cabella, R.; Lucchetti, G.; Marescotti, P.; Martinelli, A.
Structural studies on synthetic and natural Fe-Sb-oxides of MO2 type
Neues Jahrbuch fur Mineralogie, Monatshefte, 2003, 2003, 407-420
9009424 CIFAs H O5 Pb ZnP 21 21 217.646; 9.363; 6.077
90; 90; 90		435.049Keller, P.; Lissner, F.; Schleid, T.
The crystal structure of arsendescloizite, PbZn(OH)[AsO4], from Tsumeb (Namibia) Locality: Tsumeb, Namibia
Neues Jahrbuch fur Mineralogie, Monatshefte, 2003, 2003, 374-384
9009423 CIFO3 Pb SeP 1 21/m 14.5437; 5.5137; 6.634
90; 106.547; 90		159.316Pasero, M.; Rotiroti, N.
The crystal structure of molybdomenite, PbSeO3
Neues Jahrbuch fur Mineralogie, Monatshefte, 2003, 2003, 145-152
9009242 CIFC O2P b c n4.3441; 6.111; 4.285
90; 90; 90		113.753Park, J. H.; Yoo, C. S.; Iota, V.; Cynn, H.; Nicol, M. F.; Le Bihan, T.
Crystal structure of bent carbon dioxide phase IV Sample: P = 15 GPa, the authors think this structure is correct
Physical Review B, 2003, 68, 014107-014107
9009241 CIFC O2P 41 21 24.335; 4.335; 6.102
90; 90; 90		114.67Park, J. H.; Yoo, C. S.; Iota, V.; Cynn, H.; Nicol, M. F.; Le Bihan, T.
Crystal structure of bent carbon dioxide phase IV Sample: P = 15 GPa, the authors do not think this is the correct structure
Physical Review B, 2003, 68, 014107-014107
9007957 CIFCr3 Cs2 O10P b c a11.887; 9.671; 19.493
90; 90; 90		2240.9Kolitsch, U.
alpha-Cs2Cr3O10
Acta Crystallographica, Section E, 2003, 59, i164-i166
9007954 CIFFe1.839 H Mg0.161 O5 PP 1 21/a 112.274; 13.169; 9.754
90; 108.64; 90		1493.9Kolitsch, U.
Mg-rich wolfeite, (Fe,Mg)2(PO4)(OH): structure refinement and Raman spectroscopic data
Acta Crystallographica, Section E, 2003, 59, i125-i128
9007953 CIFSe3 Yb2F d d d :28.0183; 11.272; 23.961
90; 90; 90		2165.65Assoud, A.; Kleinke, H.
Ytterbium sesquiselenide Yb2Se3
Acta Crystallographica, Section E, 2003, 59, i103-i104
9007952 CIFLi3 O4 TaC 1 2/c 18.508; 8.516; 9.338
90; 116.869; 90		603.535du Boulay, D.; Sakaguchi, A.; Suda, K.; Ishizawa, N.
Reinvestigation of beta-Li3TaO4
Acta Crystallographica, Section E, 2003, 59, i80-i82
9007947 CIFLi3 Mo3 O12 ScP n m a5.13; 10.56; 17.745
90; 90; 90		961.296Kolitsch, U.; Tillmanns, E.
Li3Sc(MoO4)3: substitutional disorder on three (Li,Sc) sites
Acta Crystallographica, Section E, 2003, 59, i55-i58
9007946 CIFH8 K2 O16 P4 ZnP -16.827; 7.333; 7.57
80.753; 72.547; 83.442		355.949Tahiri, A. A.; ouarsal R; Lachkar, M.; Zavalij, P. Y.; El Bali, B.
Dipotassium zinc bis(dihydrogendiphosphate) dihydrate, K2Zn(H2P2O7)2*2H2O
Acta Crystallographica, Section E, 2003, 59, i50-i52
9007944 CIFBi3.041 Mo2 O12 Sc0.959C 1 2/c 116.996; 11.601; 5.319
90; 104.67; 90		1014.56Kolitsch, U.; Tillmanns, E.
Bi3ScMo2O12: the difference from Bi3FeMo2O12
Acta Crystallographica, Section E, 2003, 59, i43-i46
9007943 CIFB4 Hg O7P b c a8.3994; 8.8066; 14.137
90; 90; 90		1045.72Weil, M.
HgB4O7, a member of the isotypic MIIB4O7 family (MII = Mg, Mn, Zn, Cd)
Acta Crystallographica, Section E, 2003, 59, i40-i42
9007941 CIFH8 Mg Na O10 P3P b c a14.806; 9.078; 14.811
90; 90; 90		1990.73Ouarsal, R.; Tahiri, A. A.; Lachkar, M.; Dusek, M.; Fejfarova, K.; El Bali, B.
Sodium magnesium tris(dihydrogenphosphite) monohydrate, NaMg(H2PO3)3*H2O
Acta Crystallographica, Section E, 2003, 59, i33-i35
9007938 CIFAl Ba Ca F7P 1 2/n 15.3664; 5.3846; 18.8262
90; 92.319; 90		543.555Werner, F.; Weil, M.
alpha-BaCaAlF7
Acta Crystallographica, Section E, 2003, 59, i17-i19
9007937 CIFAl Mo2 Na O8C 1 2/c 19.621; 5.339; 13.146
90; 90.01; 90		675.264Kolitsch, U.; Macka, M.; Hanuza, J.
NaAl(MoO4)2: a rare structure type among layered yavapaiite-related AM(XO4)2 compounds
Acta Crystallographica, Section E, 2003, 59, i10-i13
9007269 CIFAl0.02 Cr1.02 Fe0.002 Mg O4 V0.96 Zn0.015F d -3 m :28.38; 8.38; 8.38
90; 90; 90		588.48Lavina, B.; Reznitskii, L. Z.; Bosi, F.
Crystal chemistry of some Mg, Cr, V normal spinels from Sludyanka (Lake Baikal, Russia): the influence of V3+ on structural stability Sample: VRL3c
Physics and Chemistry of Minerals, 2003, 30, 599-605
9007268 CIFAl0.024 Cr1.24 Fe0.009 Mg0.99 O4 V0.74 Zn0.008F d -3 m :28.3686; 8.3686; 8.3686
90; 90; 90		586.082Lavina, B.; Reznitskii, L. Z.; Bosi, F.
Crystal chemistry of some Mg, Cr, V normal spinels from Sludyanka (Lake Baikal, Russia): the influence of V3+ on structural stability Sample: VRL3b
Physics and Chemistry of Minerals, 2003, 30, 599-605
9007267 CIFAl0.02 Cr1.3 Fe0.01 Mg0.99 Mn0.003 O4 V0.68F d -3 m :28.3629; 8.3629; 8.3629
90; 90; 90		584.885Lavina, B.; Reznitskii, L. Z.; Bosi, F.
Crystal chemistry of some Mg, Cr, V normal spinels from Sludyanka (Lake Baikal, Russia): the influence of V3+ on structural stability Sample: VRL1e
Physics and Chemistry of Minerals, 2003, 30, 599-605
9007266 CIFAl0.024 Cr1.36 Fe0.004 Mg0.99 Mn0.003 O4 V0.64F d -3 m :28.3604; 8.3604; 8.3604
90; 90; 90		584.361Lavina, B.; Reznitskii, L. Z.; Bosi, F.
Crystal chemistry of some Mg, Cr, V normal spinels from Sludyanka (Lake Baikal, Russia): the influence of V3+ on structural stability Sample: VRL1d
Physics and Chemistry of Minerals, 2003, 30, 599-605
9007265 CIFAl0.02 Cr1.4 Fe0.005 Mg0.99 Mn0.002 O4 V0.58 Zn0.008F d -3 m :28.3664; 8.3664; 8.3664
90; 90; 90		585.62Lavina, B.; Reznitskii, L. Z.; Bosi, F.
Crystal chemistry of some Mg, Cr, V normal spinels from Sludyanka (Lake Baikal, Russia): the influence of V3+ on structural stability Sample: VRL3a
Physics and Chemistry of Minerals, 2003, 30, 599-605
9007264 CIFAl0.09 Cr1.36 Fe0.01 Mg0.987 Mn0.003 O4 V0.552 Zn0.005F d -3 m :28.3511; 8.3511; 8.3511
90; 90; 90		582.413Lavina, B.; Reznitskii, L. Z.; Bosi, F.
Crystal chemistry of some Mg, Cr, V normal spinels from Sludyanka (Lake Baikal, Russia): the influence of V3+ on structural stability Sample: VRL1b
Physics and Chemistry of Minerals, 2003, 30, 599-605
9007263 CIFAl0.086 Cr1.36 Fe0.01 Mg0.99 Mn0.003 O4 V0.55 Zn0.005F d -3 m :28.3613; 8.3613; 8.3613
90; 90; 90		584.55Lavina, B.; Reznitskii, L. Z.; Bosi, F.
Crystal chemistry of some Mg, Cr, V normal spinels from Sludyanka (Lake Baikal, Russia): the influence of V3+ on structural stability Sample: VRL1a
Physics and Chemistry of Minerals, 2003, 30, 599-605
9007262 CIFAl0.09 Cr1.38 Fe0.018 Mg0.979 Mn0.004 O4 V0.524 Zn0.005F d -3 m :28.3479; 8.3479; 8.3479
90; 90; 90		581.744Lavina, B.; Reznitskii, L. Z.; Bosi, F.
Crystal chemistry of some Mg, Cr, V normal spinels from Sludyanka (Lake Baikal, Russia): the influence of V3+ on structural stability Sample: VRL1p
Physics and Chemistry of Minerals, 2003, 30, 599-605
9007261 CIFAl0.028 Cr1.46 Fe0.009 Mg0.99 Mn0.003 O4 V0.512 Zn0.005F d -3 m :28.3584; 8.3584; 8.3584
90; 90; 90		583.942Lavina, B.; Reznitskii, L. Z.; Bosi, F.
Crystal chemistry of some Mg, Cr, V normal spinels from Sludyanka (Lake Baikal, Russia): the influence of V3+ on structural stability Sample: VRL1r
Physics and Chemistry of Minerals, 2003, 30, 599-605
9007260 CIFAl0.078 Cr1.67 Fe0.003 Mg0.97 Mn0.002 O4 V0.26 Zn0.005F d -3 m :28.3369; 8.3369; 8.3369
90; 90; 90		579.447Lavina, B.; Reznitskii, L. Z.; Bosi, F.
Crystal chemistry of some Mg, Cr, V normal spinels from Sludyanka (Lake Baikal, Russia): the influence of V3+ on structural stability Sample: VRL2b
Physics and Chemistry of Minerals, 2003, 30, 599-605
9007259 CIFAl0.064 Cr1.75 Fe0.002 Mg0.99 O4 V0.19 Zn0.006F d -3 m :28.3334; 8.3334; 8.3334
90; 90; 90		578.718Lavina, B.; Reznitskii, L. Z.; Bosi, F.
Crystal chemistry of some Mg, Cr, V normal spinels from Sludyanka (Lake Baikal, Russia): the influence of V3+ on structural stability Sample: VRL2c
Physics and Chemistry of Minerals, 2003, 30, 599-605
9007258 CIFAl0.078 Cr1.708 Fe0.003 Mg Mn0.002 O4 V0.15 Zn0.008F d -3 m :28.3431; 8.3431; 8.3431
90; 90; 90		580.741Lavina, B.; Reznitskii, L. Z.; Bosi, F.
Crystal chemistry of some Mg, Cr, V normal spinels from Sludyanka (Lake Baikal, Russia): the influence of V3+ on structural stability Sample: VRL2d
Physics and Chemistry of Minerals, 2003, 30, 599-605
9007257 CIFAl0.054 Cr1.804 Fe0.005 Mg0.99 O4 V0.142 Zn0.007F d -3 m :28.3367; 8.3367; 8.3367
90; 90; 90		579.405Lavina, B.; Reznitskii, L. Z.; Bosi, F.
Crystal chemistry of some Mg, Cr, V normal spinels from Sludyanka (Lake Baikal, Russia): the influence of V3+ on structural stability Sample: VRL2a
Physics and Chemistry of Minerals, 2003, 30, 599-605
9007256 CIFCa0.009 Fe0.138 Mn0.792 Nb1.794 O6 Sc0.002 Sn0.003 Ta0.166 Ti0.077 W0.001P b c n14.4508; 5.7741; 5.1025
90; 90; 90		425.754Tarantino S C; Zema M; Pistorino M; Domeneghetti M C
High-temperature X-ray investigation of natural columbites Note: sample KRA5 at T = 600 C Sample: Kragero, Norway
Physics and Chemistry of Minerals, 2003, 30, 590-598
9007255 CIFCa0.009 Fe0.138 Mn0.792 Nb1.794 O6 Sc0.002 Sn0.003 Ta0.166 Ti0.077 W0.001P b c n14.4159; 5.7593; 5.0905
90; 90; 90		422.641Tarantino S C; Zema M; Pistorino M; Domeneghetti M C
High-temperature X-ray investigation of natural columbites Note: sample KRA5 at T = 300 C Locality: Kragero, Norway
Physics and Chemistry of Minerals, 2003, 30, 590-598
9007254 CIFCa0.009 Fe0.138 Mn0.792 Nb1.794 O6 Sc0.002 Sn0.003 Ta0.166 Ti0.077 W0.001P b c n14.386; 5.7478; 5.0797
90; 90; 90		420.029Tarantino S C; Zema M; Pistorino M; Domeneghetti M C
High-temperature X-ray investigation of natural columbites Note: sample KRA5 at T = 20 C Locality: Kragero, Norway
Physics and Chemistry of Minerals, 2003, 30, 590-598
9007253 CIFCa0.001 Fe0.747 Mn0.215 Nb1.894 O6 Sc0.003 Sn0.001 Ta0.094 Ti0.027 W0.003P b c n14.3515; 5.761; 5.0833
90; 90; 90		420.282Tarantino S C; Zema M; Pistorino M; Domeneghetti M C
High-temperature X-ray investigation of natural columbites Note: sample BRA3 at T = 600 C Locality: San Jose de Safira, Minas Gerais, Brazil
Physics and Chemistry of Minerals, 2003, 30, 590-598
9007252 CIFCa0.001 Fe0.747 Mn0.215 Nb1.894 O6 Sc0.003 Sn0.001 Ta0.094 Ti0.027 W0.003P b c n14.3191; 5.7482; 5.0713
90; 90; 90		417.414Tarantino S C; Zema M; Pistorino M; Domeneghetti M C
High-temperature X-ray investigation of natural columbites Note: sample BRA3 at T = 300 C Locality: San Jose de Safira, Minas Gerais, Brazil
Physics and Chemistry of Minerals, 2003, 30, 590-598
9007251 CIFCa0.001 Fe0.747 Mn0.215 Nb1.894 O6 Sc0.003 Sn0.001 Ta0.094 Ti0.027 W0.003P b c n14.288; 5.7364; 5.0562
90; 90; 90		414.415Tarantino S C; Zema M; Pistorino M; Domeneghetti M C
High-temperature X-ray investigation of natural columbites Note: sample BRA3 at T = 20 C Locality: San Jose de Safira, Minas Gerais, Brazil
Physics and Chemistry of Minerals, 2003, 30, 590-598
9007250 CIFH2 Mg6.19 Na1.62 O24 Si8C 1 2/m 19.737; 18.049; 5.303
90; 102.22; 90		910.849Camara, F.; Oberti, R.; Iezzi, G.; Della Ventura, G.
The P2_1/m - C2/m phase transition in synthetic amphibole Na NaMg Mg5 Si8 O22 (OH)2: thermodynamic and crystal-chemical evaluation Sample: T = 370 C
Physics and Chemistry of Minerals, 2003, 30, 570-581
9007249 CIFH2 Mg6.19 Na1.62 O24 Si8C 1 2/m 19.723; 18.027; 5.301
90; 102.26; 90		907.951Camara, F.; Oberti, R.; Iezzi, G.; Della Ventura, G.
The P2_1/m - C2/m phase transition in synthetic amphibole Na NaMg Mg5 Si8 O22 (OH)2: thermodynamic and crystal-chemical evaluation Sample: T = 270 C
Physics and Chemistry of Minerals, 2003, 30, 570-581
9007248 CIFH2 Mg6.19 Na1.62 O24 Si8P 1 21/m 19.706; 17.986; 5.286
90; 102.37; 90		901.365Camara, F.; Oberti, R.; Iezzi, G.; Della Ventura, G.
The P2_1/m - C2/m phase transition in synthetic amphibole Na NaMg Mg5 Si8 O22 (OH)2: thermodynamic and crystal-chemical evaluation Sample: T = 140 C
Physics and Chemistry of Minerals, 2003, 30, 570-581
9007247 CIFH2 Mg6.19 Na1.62 O24 Si8P 1 21/m 19.685; 17.92; 5.268
90; 102.44; 90		892.823Camara, F.; Oberti, R.; Iezzi, G.; Della Ventura, G.
The P2_1/m - C2/m phase transition in synthetic amphibole Na NaMg Mg5 Si8 O22 (OH)2: thermodynamic and crystal-chemical evaluation Sample: T = ambient
Physics and Chemistry of Minerals, 2003, 30, 570-581
9007246 CIFS3 Sb2P n m a10.508; 3.7409; 10.579
90; 90; 90		415.854Lundegaard, L. F.; Miletich, R.; Balic-Zunic T; Makovicky, E.
Equation of state and crystal structure of Sb2S3 between 0 and 10 GPa Sample: Romania, P = 7.832 GPa
Physics and Chemistry of Minerals, 2003, 30, 463-468
9007245 CIFS3 Sb2P n m a10.529; 3.7458; 10.604
90; 90; 90		418.217Lundegaard, L. F.; Miletich, R.; Balic-Zunic T; Makovicky, E.
Equation of state and crystal structure of Sb2S3 between 0 and 10 GPa Sample: Romania, P = 7.406 GPa
Physics and Chemistry of Minerals, 2003, 30, 463-468
9007244 CIFS3 Sb2P n m a10.836; 3.7919; 10.884
90; 90; 90		447.213Lundegaard, L. F.; Miletich, R.; Balic-Zunic T; Makovicky, E.
Equation of state and crystal structure of Sb2S3 between 0 and 10 GPa Sample: Romania, P = 3.235 GPa
Physics and Chemistry of Minerals, 2003, 30, 463-468
9007243 CIFS3 Sb2P n m a10.959; 3.806; 10.983
90; 90; 90		458.1Lundegaard, L. F.; Miletich, R.; Balic-Zunic T; Makovicky, E.
Equation of state and crystal structure of Sb2S3 between 0 and 10 GPa Sample: Romania, P = 2.118 GPa
Physics and Chemistry of Minerals, 2003, 30, 463-468
9007242 CIFS3 Sb2P n m a11.044; 3.8124; 11.043
90; 90; 90		464.956Lundegaard, L. F.; Miletich, R.; Balic-Zunic T; Makovicky, E.
Equation of state and crystal structure of Sb2S3 between 0 and 10 GPa Sample: Romania, P = 1.591 GPa
Physics and Chemistry of Minerals, 2003, 30, 463-468
9007241 CIFS3 Sb2P n m a11.098; 3.8232; 11.091
90; 90; 90		470.59Lundegaard, L. F.; Miletich, R.; Balic-Zunic T; Makovicky, E.
Equation of state and crystal structure of Sb2S3 between 0 and 10 GPa Sample: Romania, P = 1.115 GPa
Physics and Chemistry of Minerals, 2003, 30, 463-468
9007240 CIFS3 Sb2P n m a11.299; 3.8313; 11.227
90; 90; 90		486.015Lundegaard, L. F.; Miletich, R.; Balic-Zunic T; Makovicky, E.
Equation of state and crystal structure of Sb2S3 between 0 and 10 GPa Sample: Romania, P = 0.0001 GPa
Physics and Chemistry of Minerals, 2003, 30, 463-468
9007239 CIFAl1.911 Fe0.082 Mg0.997 O4F d -3 m :28.1701; 8.1701; 8.1701
90; 90; 90		545.359Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Fe, 3rd run, T = 1000 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007238 CIFAl1.912 Fe0.082 Mg0.995 O4F d -3 m :28.1627; 8.1627; 8.1627
90; 90; 90		543.878Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Fe, 3rd run, T = 900 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007237 CIFAl1.914 Fe0.08 Mg0.996 O4F d -3 m :28.1547; 8.1547; 8.1547
90; 90; 90		542.28Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Fe, 3rd run, T = 800 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007236 CIFAl1.914 Fe0.08 Mg0.996 O4F d -3 m :28.1469; 8.1469; 8.1469
90; 90; 90		540.726Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Fe, 3rd run, T = 700 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007235 CIFAl1.915 Fe0.08 Mg0.995 O4F d -3 m :28.144; 8.144; 8.144
90; 90; 90		540.149Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Fe, 3rd run, T = 650 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007234 CIFAl1.917 Fe0.08 Mg0.993 O4F d -3 m :28.1403; 8.1403; 8.1403
90; 90; 90		539.413Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Fe, 3rd run, T = 600 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007233 CIFAl1.917 Fe0.08 Mg0.991 O4F d -3 m :28.1359; 8.1359; 8.1359
90; 90; 90		538.539Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Fe, 3rd run, T = 550 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007232 CIFAl1.916 Fe0.081 Mg0.99 O4F d -3 m :28.128; 8.128; 8.128
90; 90; 90		536.971Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Fe, 2nd run, T = 450 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007231 CIFAl1.918 Fe0.08 Mg0.991 O4F d -3 m :28.1318; 8.1318; 8.1318
90; 90; 90		537.725Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Fe, 2nd run, T = 500 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007230 CIFAl1.917 Fe0.08 Mg0.991 O4F d -3 m :28.0987; 8.0987; 8.0987
90; 90; 90		531.185Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Fe, 1st run, T = 25 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007229 CIFAl1.919 Fe0.079 Mg0.993 O4F d -3 m :28.1243; 8.1243; 8.1243
90; 90; 90		536.238Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Fe, 1st run, T = 400 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007228 CIFAl2.635 Fe0.08 Mg0.274 O4F d -3 m :28.1281; 8.1281; 8.1281
90; 90; 90		536.991Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Fe, 1st run, T = 450 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007227 CIFAl1.915 Fe0.082 Mg0.989 O4F d -3 m :28.1239; 8.1239; 8.1239
90; 90; 90		536.159Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Fe, 1st run, T = 400 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007226 CIFAl1.917 Fe0.081 Mg0.988 O4F d -3 m :28.1092; 8.1092; 8.1092
90; 90; 90		533.254Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Fe, 1st run, T = 200 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007225 CIFAl1.914 Fe0.082 Mg0.99 O4F d -3 m :28.0989; 8.0989; 8.0989
90; 90; 90		531.225Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Fe, 1st run, T = 25 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007224 CIFAl1.834 Cr0.162 Mg0.995 Mn0.002 O4 Zn0.007F d -3 m :28.1791; 8.1791; 8.1791
90; 90; 90		547.163Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: H-Cr, 3rd run, T = 1000 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007223 CIFAl1.834 Cr0.162 Mg0.995 Mn0.002 O4 Zn0.007F d -3 m :28.1726; 8.1726; 8.1726
90; 90; 90		545.859Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: H-Cr, 3rd run, T = 900 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007222 CIFAl1.834 Cr0.162 Mg0.995 Mn0.002 O4 Zn0.007F d -3 m :28.1655; 8.1655; 8.1655
90; 90; 90		544.438Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: H-Cr, 3rd run, T = 800 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007221 CIFAl1.834 Cr0.162 Mg0.995 Mn0.002 O4 Zn0.007F d -3 m :28.1569; 8.1569; 8.1569
90; 90; 90		542.719Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: H-Cr, 3rd run, T = 700 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007220 CIFAl1.834 Cr0.162 Mg0.995 Mn0.002 O4 Zn0.007F d -3 m :28.1525; 8.1525; 8.1525
90; 90; 90		541.842Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: H-Cr, 3rd run, T = 650 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007219 CIFAl1.834 Cr0.162 Mg0.995 Mn0.002 O4 Zn0.007F d -3 m :28.1482; 8.1482; 8.1482
90; 90; 90		540.985Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: H-Cr, 3rd run, T = 600 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007218 CIFAl1.834 Cr0.162 Mg0.995 Mn0.002 O4 Zn0.007F d -3 m :28.1445; 8.1445; 8.1445
90; 90; 90		540.248Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: H-Cr, 3rd run, T = 550 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007217 CIFAl1.834 Cr0.162 Mg0.995 Mn0.002 O4 Zn0.007F d -3 m :28.1358; 8.1358; 8.1358
90; 90; 90		538.519Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: H-Cr, 2nd run, T = 450 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007216 CIFAl1.834 Cr0.162 Mg0.995 Mn0.002 O4 Zn0.007F d -3 m :28.14; 8.14; 8.14
90; 90; 90		539.353Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: H-Cr, 2nd run, T = 500 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007215 CIFAl1.834 Cr0.162 Mg0.995 Mn0.002 O4 Zn0.007F d -3 m :28.1085; 8.1085; 8.1085
90; 90; 90		533.116Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: H-Cr, 1st run, T = 25 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007214 CIFAl1.834 Cr0.162 Mg0.995 Mn0.002 O4 Zn0.007F d -3 m :28.1315; 8.1315; 8.1315
90; 90; 90		537.665Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: H-Cr, 1st run, T = 400 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007213 CIFAl1.834 Cr0.162 Mg0.995 Mn0.002 O4 Zn0.007F d -3 m :28.1354; 8.1354; 8.1354
90; 90; 90		538.439Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: H-Cr, 1st run, T = 450 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007212 CIFAl1.834 Cr0.162 Mg0.995 Mn0.002 O4 Zn0.007F d -3 m :28.1316; 8.1316; 8.1316
90; 90; 90		537.685Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: H-Cr, 1st run, T = 400 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007211 CIFAl1.834 Cr0.162 Mg0.995 Mn0.002 O4 Zn0.007F d -3 m :28.118; 8.118; 8.118
90; 90; 90		534.992Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: H-Cr, 1st run, T = 200 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007210 CIFAl1.834 Cr0.162 Mg0.995 Mn0.002 O4 Zn0.007F d -3 m :28.108; 8.108; 8.108
90; 90; 90		533.017Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: H-Cr, 1st run, T = 25 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007209 CIFAl1.868 Cr0.123 Mg0.999 Mn0.002 O4 Zn0.007F d -3 m :28.1733; 8.1733; 8.1733
90; 90; 90		546Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: M-Cr, 3rd run, T = 1000 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007208 CIFAl1.868 Cr0.123 Mg0.999 Mn0.002 O4 Zn0.007F d -3 m :28.1658; 8.1658; 8.1658
90; 90; 90		544.498Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: M-Cr, 3rd run, T = 900 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007207 CIFAl1.868 Cr0.123 Mg0.999 Mn0.002 O4 Zn0.007F d -3 m :28.1577; 8.1577; 8.1577
90; 90; 90		542.879Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: M-Cr, 3rd run, T = 800 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007206 CIFAl1.868 Cr0.123 Mg0.999 Mn0.002 O4 Zn0.007F d -3 m :28.1502; 8.1502; 8.1502
90; 90; 90		541.383Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: M-Cr, 3rd run, T = 700 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007205 CIFAl1.868 Cr0.123 Mg0.999 Mn0.002 O4 Zn0.007F d -3 m :28.1461; 8.1461; 8.1461
90; 90; 90		540.567Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: M-Cr, 3rd run, T = 650 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007204 CIFAl1.868 Cr0.123 Mg0.999 Mn0.002 O4 Zn0.007F d -3 m :28.1419; 8.1419; 8.1419
90; 90; 90		539.731Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: M-Cr, 3rd run, T = 600 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007203 CIFAl1.868 Cr0.123 Mg0.999 Mn0.002 O4 Zn0.007F d -3 m :28.1379; 8.1379; 8.1379
90; 90; 90		538.936Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: M-Cr, 3rd run, T = 550 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007202 CIFAl1.868 Cr0.123 Mg0.999 Mn0.002 O4 Zn0.007F d -3 m :28.1302; 8.1302; 8.1302
90; 90; 90		537.407Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: M-Cr, 2nd run, T = 450 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007201 CIFAl1.868 Cr0.123 Mg0.999 Mn0.002 O4 Zn0.007F d -3 m :28.1338; 8.1338; 8.1338
90; 90; 90		538.122Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: M-Cr, 2nd run, T = 500 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007200 CIFAl1.868 Cr0.123 Mg0.999 Mn0.002 O4 Zn0.007F d -3 m :28.1018; 8.1018; 8.1018
90; 90; 90		531.795Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: M-Cr, 1st run, T = 28 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007199 CIFAl1.868 Cr0.123 Mg0.999 Mn0.002 O4 Zn0.007F d -3 m :28.1265; 8.1265; 8.1265
90; 90; 90		536.674Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: M-Cr, 1st run, T = 400 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007198 CIFAl1.868 Cr0.123 Mg0.999 Mn0.002 O4 Zn0.007F d -3 m :28.1305; 8.1305; 8.1305
90; 90; 90		537.467Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: M-Cr, 1st run, T = 450 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007197 CIFAl1.868 Cr0.123 Mg0.999 Mn0.002 O4 Zn0.007F d -3 m :28.1263; 8.1263; 8.1263
90; 90; 90		536.634Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: M-Cr, 1st run, T = 400 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007196 CIFAl1.868 Cr0.123 Mg0.999 Mn0.002 O4 Zn0.007F d -3 m :28.1116; 8.1116; 8.1116
90; 90; 90		533.727Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: M-Cr, 1st run, T = 200 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007195 CIFAl1.868 Cr0.123 Mg0.999 Mn0.002 O4 Zn0.007F d -3 m :28.1019; 8.1019; 8.1019
90; 90; 90		531.815Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: M-Cr, 1st run, T = 28 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007194 CIFAl1.928 Cr0.066 Mg1.003 Mn0.001 O4 Zn0.002F d -3 m :28.1667; 8.1667; 8.1667
90; 90; 90		544.678Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Cr, 3rd run, T = 1000 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007193 CIFAl1.928 Cr0.066 Mg1.003 Mn0.001 O4 Zn0.002F d -3 m :28.1577; 8.1577; 8.1577
90; 90; 90		542.879Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Cr, 3rd run, T = 900 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007192 CIFAl1.928 Cr0.066 Mg1.003 Mn0.001 O4 Zn0.002F d -3 m :28.1503; 8.1503; 8.1503
90; 90; 90		541.403Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Cr, 3rd run, T = 800 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007191 CIFAl1.928 Cr0.066 Mg1.003 Mn0.001 O4 Zn0.002F d -3 m :28.1423; 8.1423; 8.1423
90; 90; 90		539.81Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Cr, 3rd run, T = 700 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007190 CIFAl1.928 Cr0.066 Mg1.003 Mn0.001 O4 Zn0.002F d -3 m :28.1381; 8.1381; 8.1381
90; 90; 90		538.976Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Cr, 3rd run, T = 650 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007189 CIFAl1.928 Cr0.066 Mg1.003 Mn0.001 O4 Zn0.002F d -3 m :28.1335; 8.1335; 8.1335
90; 90; 90		538.062Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Cr, 3rd run, T = 600 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007188 CIFAl1.928 Cr0.066 Mg1.003 Mn0.001 O4 Zn0.002F d -3 m :28.1298; 8.1298; 8.1298
90; 90; 90		537.328Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Cr, 3rd run, T = 550 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007187 CIFAl1.928 Cr0.066 Mg1.003 Mn0.001 O4 Zn0.002F d -3 m :28.1217; 8.1217; 8.1217
90; 90; 90		535.724Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Cr, 2nd run, T = 450 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007186 CIFAl1.928 Cr0.066 Mg1.003 Mn0.001 O4 Zn0.002F d -3 m :28.1256; 8.1256; 8.1256
90; 90; 90		536.496Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Cr, 2nd run, T = 500 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007185 CIFAl1.928 Cr0.066 Mg1.003 Mn0.001 O4 Zn0.002F d -3 m :28.0917; 8.0917; 8.0917
90; 90; 90		529.809Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Cr, 1st run, T = 25 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007184 CIFAl1.928 Cr0.066 Mg1.003 Mn0.001 O4 Zn0.002F d -3 m :28.1168; 8.1168; 8.1168
90; 90; 90		534.755Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Cr, 1st run, T = 400 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007183 CIFAl1.928 Cr0.066 Mg1.003 Mn0.001 O4 Zn0.002F d -3 m :28.1207; 8.1207; 8.1207
90; 90; 90		535.526Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Cr, 1st run, T = 450 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007182 CIFAl1.928 Cr0.066 Mg1.003 Mn0.001 O4 Zn0.002F d -3 m :28.1169; 8.1169; 8.1169
90; 90; 90		534.774Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Cr, 1st run, T = 400 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007181 CIFAl1.928 Cr0.066 Mg1.003 Mn0.001 O4 Zn0.002F d -3 m :28.1018; 8.1018; 8.1018
90; 90; 90		531.795Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Cr, 1st run, T = 200 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007180 CIFAl1.928 Cr0.066 Mg1.003 Mn0.001 O4 Zn0.002F d -3 m :28.0914; 8.0914; 8.0914
90; 90; 90		529.75Martignago, F.; Dal Negro, A.; Carbonin, S.
How Cr3+ and Fe3+ affect Mg-Al order-disorder transformation at high temperature in natural spinels Sample: L-Cr, 1st run, T = 25 C
Physics and Chemistry of Minerals, 2003, 30, 401-408
9007179 CIFC H30 Ca3 O25 S SiP 6311.0538; 11.0538; 10.4111
90; 90; 120		1101.67Jacobsen, S. D.; Smyth, J. R.; Swope, R. J.
Thermal expansion of hydrated six-coordinated silicon in thaumasite, Ca3Si(OH)6(CO3)(SO4).12H2O Sample: T = 298 K
Physics and Chemistry of Minerals, 2003, 30, 321-329
9007178 CIFC H30 Ca3 O25 S SiP 6311.022; 11.022; 10.374
90; 90; 120		1091.44Jacobsen, S. D.; Smyth, J. R.; Swope, R. J.
Thermal expansion of hydrated six-coordinated silicon in thaumasite, Ca3Si(OH)6(CO3)(SO4).12H2O Sample: T = 130 K
Physics and Chemistry of Minerals, 2003, 30, 321-329
9007177 CIFFe4.07 H2 O12 Rb0.99 Si2.96C 1 2/m 15.41; 9.325; 9.645
90; 100.7; 90		478.113Comodi, P.; Drabek, M.; Montagnoli, M.; Rieder, M.; Weiss, Z.; Zanazzi, P. F.
Pressure-induced phase transition in synthetic trioctahedral Rb-mica Sample: P = 7.2 GPa
Physics and Chemistry of Minerals, 2003, 30, 198-205
9007176 CIFFe4.07 H2 O12 Rb0.99 Si2.96C 1 2/m 15.42; 9.383; 9.846
90; 100.8; 90		491.858Comodi, P.; Drabek, M.; Montagnoli, M.; Rieder, M.; Weiss, Z.; Zanazzi, P. F.
Pressure-induced phase transition in synthetic trioctahedral Rb-mica Sample: P = 4.75 GPa
Physics and Chemistry of Minerals, 2003, 30, 198-205
9007175 CIFFe4.07 H2 O12 Rb0.99 Si2.96C 1 2/m 15.412; 9.392; 10.12
90; 100.2; 90		506.265Comodi, P.; Drabek, M.; Montagnoli, M.; Rieder, M.; Weiss, Z.; Zanazzi, P. F.
Pressure-induced phase transition in synthetic trioctahedral Rb-mica Sample: P = 2.81 GPa
Physics and Chemistry of Minerals, 2003, 30, 198-205
9007174 CIFFe4.07 H2 O12 Rb0.99 Si2.96C 1 2/m 15.442; 9.435; 10.185
90; 100.3; 90		514.524Comodi, P.; Drabek, M.; Montagnoli, M.; Rieder, M.; Weiss, Z.; Zanazzi, P. F.
Pressure-induced phase transition in synthetic trioctahedral Rb-mica Sample: P = 1.76 GPa
Physics and Chemistry of Minerals, 2003, 30, 198-205
9007173 CIFFe4.07 H2 O12 Rb0.99 Si2.96C 1 2/m 15.478; 9.489; 10.521
90; 99.95; 90		538.664Comodi, P.; Drabek, M.; Montagnoli, M.; Rieder, M.; Weiss, Z.; Zanazzi, P. F.
Pressure-induced phase transition in synthetic trioctahedral Rb-mica Sample: P = .0001 GPa, data collected at room conditions in the DAC
Physics and Chemistry of Minerals, 2003, 30, 198-205
9007172 CIFFe4.07 H2 O12 Rb0.99 Si2.96C 1 2/m 15.476; 9.493; 10.514
90; 99.95; 90		538.335Comodi, P.; Drabek, M.; Montagnoli, M.; Rieder, M.; Weiss, Z.; Zanazzi, P. F.
Pressure-induced phase transition in synthetic trioctahedral Rb-mica Sample: P = .0001 GPa, data collected in air
Physics and Chemistry of Minerals, 2003, 30, 198-205
9007171 CIFO2 SiC 1 2/c 16.8886; 12.1377; 7.0625
90; 120.962; 90		506.366Angel, R. J.; Shaw, C. S. J.; Gibbs, G. V.
Compression mechanisms of coesite Sample: X4P1, P = 8.68 GPa
Physics and Chemistry of Minerals, 2003, 30, 167-176
9007170 CIFO2 SiC 1 2/c 16.9126; 12.161; 7.0746
90; 120.91; 90		510.255Angel, R. J.; Shaw, C. S. J.; Gibbs, G. V.
Compression mechanisms of coesite Sample: X1P7, P = 7.814 GPa
Physics and Chemistry of Minerals, 2003, 30, 167-176
9007169 CIFO2 SiC 1 2/c 16.945; 12.1909; 7.0912
90; 120.85; 90		515.436Angel, R. J.; Shaw, C. S. J.; Gibbs, G. V.
Compression mechanisms of coesite Sample: X1P5, P = 6.509 GPa
Physics and Chemistry of Minerals, 2003, 30, 167-176
9007168 CIFO2 SiC 1 2/c 16.952; 12.1986; 7.0942
90; 120.82; 90		516.661Angel, R. J.; Shaw, C. S. J.; Gibbs, G. V.
Compression mechanisms of coesite Sample: X1P12, P = 6.16 GPa
Physics and Chemistry of Minerals, 2003, 30, 167-176
9007167 CIFO2 SiC 1 2/c 16.9862; 12.2311; 7.1101
90; 120.746; 90		522.154Angel, R. J.; Shaw, C. S. J.; Gibbs, G. V.
Compression mechanisms of coesite Sample: X4P3, P = 5.01 GPa
Physics and Chemistry of Minerals, 2003, 30, 167-176
9007166 CIFO2 SiC 1 2/c 17.0035; 12.2462; 7.1178
90; 120.708; 90		524.868Angel, R. J.; Shaw, C. S. J.; Gibbs, G. V.
Compression mechanisms of coesite Sample: X4P2, P = 4.45 GPa
Physics and Chemistry of Minerals, 2003, 30, 167-176

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