Crystallography Open Database

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9010393 CIFFe0.489 H1.521 K Mg2.511 O12 Si3.961C 1 2/m 15.3252; 9.2205; 10.2458
90; 99.9938; 90		495.446Matarrese, S.; Schingaro, E.; Scordari, F.; Stoppa, F.; Rosatelli, G.; Pedrazzi, G.; Ottolini, L.
Crystal chemistry of phlogopite from Vulture-S. Michele Subsynthem volcanic rocks (Mt. Vulture, Italy) and volcanological implications Locality: Masseria Saraceno pyroclastic flow, Vulture-San Michele Subsynthem, Mt. Vulture, Italy Sample: VUT191_1
American Mineralogist, 2008, 93, 426-437
9010394 CIFFe0.53 H1.802 K Mg2.47 O12 Si3.985C 1 2/m 15.3254; 9.2216; 10.2411
90; 100.022; 90		495.253Matarrese, S.; Schingaro, E.; Scordari, F.; Stoppa, F.; Rosatelli, G.; Pedrazzi, G.; Ottolini, L.
Crystal chemistry of phlogopite from Vulture-S. Michele Subsynthem volcanic rocks (Mt. Vulture, Italy) and volcanological implications Locality: Masseria Saraceno pyroclastic flow, Vulture-San Michele Subsynthem, Mt. Vulture, Italy Sample: VUT191_2
American Mineralogist, 2008, 93, 426-437
9010395 CIFFe1.054 H1.573 K Mg1.944 O12 Si3.97C 1 2/m 15.338; 9.243; 10.1923
90; 100.022; 90		495.205Matarrese, S.; Schingaro, E.; Scordari, F.; Stoppa, F.; Rosatelli, G.; Pedrazzi, G.; Ottolini, L.
Crystal chemistry of phlogopite from Vulture-S. Michele Subsynthem volcanic rocks (Mt. Vulture, Italy) and volcanological implications Locality: Masseria Saraceno pyroclastic flow, Vulture-San Michele Subsynthem, Mt. Vulture, Italy Sample: VUT191_10
American Mineralogist, 2008, 93, 426-437
9010396 CIFFe1.019 H1.329 K Mg1.981 O12 Si3.973C 1 2/m 15.3367; 9.2431; 10.1806
90; 100.103; 90		494.398Matarrese, S.; Schingaro, E.; Scordari, F.; Stoppa, F.; Rosatelli, G.; Pedrazzi, G.; Ottolini, L.
Crystal chemistry of phlogopite from Vulture-S. Michele Subsynthem volcanic rocks (Mt. Vulture, Italy) and volcanological implications Locality: Masseria Saraceno pyroclastic flow, Vulture-San Michele Subsynthem, Mt. Vulture, Italy Sample: VUT191_11
American Mineralogist, 2008, 93, 426-437
9010397 CIFFe1.012 H1.365 K Mg1.987 O12 Si3.972C 1 2/m 15.3377; 9.2424; 10.1654
90; 100.099; 90		493.721Matarrese, S.; Schingaro, E.; Scordari, F.; Stoppa, F.; Rosatelli, G.; Pedrazzi, G.; Ottolini, L.
Crystal chemistry of phlogopite from Vulture-S. Michele Subsynthem volcanic rocks (Mt. Vulture, Italy) and volcanological implications Locality: Masseria Saraceno pyroclastic flow, Vulture-San Michele Subsynthem, Mt. Vulture, Italy Sample: VUT191_13
American Mineralogist, 2008, 93, 426-437
9010398 CIFFe0.993 H1.442 K Mg2.007 O12 Si3.96C 1 2/m 15.3341; 9.2387; 10.1569
90; 100.057; 90		492.843Matarrese, S.; Schingaro, E.; Scordari, F.; Stoppa, F.; Rosatelli, G.; Pedrazzi, G.; Ottolini, L.
Crystal chemistry of phlogopite from Vulture-S. Michele Subsynthem volcanic rocks (Mt. Vulture, Italy) and volcanological implications Locality: Masseria Saraceno pyroclastic flow, Vulture-San Michele Subsynthem, Mt. Vulture, Italy Sample: VUT191_19
American Mineralogist, 2008, 93, 426-437
9010399 CIFCa3 H2 O9 Si2 Zr0.5P n n m5.666; 18.844; 3.728
90; 90; 90		398.039Kadiyski, M.; Armbruster, T.; Galuskin, E. V.; Pertsev, N. N.; Zadov, A. E.; Galuskina, I. O.; Wrzalik, R.; Dzierzanowski, P.; Kislov, E. V.
The modular structure of dovyrenite, Ca6Zr[Si2O7]2(OH)4: alternate stacking of tobermorite and rosenbuschite-like units Locality: skarndolomite xenoliths, Dovyren massif, Russia
American Mineralogist, 2008, 93, 456-462
9010400 CIFAs2 Cu1.87 H12 Mg3.13 O16P 1 21/c 15.459; 16.808; 6.917
90; 100.44; 90		624.162Kyono, A.
Compositional variability and crystal structural features of guanacoite
American Mineralogist, 2008, 93, 501-507
9010401 CIFMg O3 SiP 1 21/m 19.477; 6.205; 4.256
90; 98.75; 90		247.36Tschauner, O.; Kiefer, B.; Liu, H.; Sinogeikin, S.; Somayazulu, M.; Luo, S.-N.
Possible structural polymorphism in Al-bearing magnesiumsilicate post-perovskite Sample: 3X1
American Mineralogist, 2008, 93, 533-539
9010402 CIFMg O3 SiP 1 21/m 17.026; 6.228; 4.262
90; 95.85; 90		185.525Tschauner, O.; Kiefer, B.; Liu, H.; Sinogeikin, S.; Somayazulu, M.; Luo, S.-N.
Possible structural polymorphism in Al-bearing magnesiumsilicate post-perovskite Sample: 2X1 Note: atom sites modified after communication with author
American Mineralogist, 2008, 93, 533-539
9010403 CIFFe2 O9 Pb2 Si2P b c n6.9788; 11.0164; 10.0881
90; 90; 90		775.586Dorsam, G.; Liebscher, A.; Wunder, B.; Franz, G.
Crystal structures of synthetic melanotekite (Pb2Fe2Si2O9), kentrolite (Pb2Mn2Si2O9), and the aluminum analogue (Pb2Al2Si2O9)
American Mineralogist, 2008, 93, 573-583
9010404 CIFMn2 O9 Pb2 Si2P 21 2 217.0079; 11.0665; 9.9634
90; 90; 90		772.691Dorsam, G.; Liebscher, A.; Wunder, B.; Franz, G.
Crystal structures of synthetic melanotekite (Pb2Fe2Si2O9), kentrolite (Pb2Mn2Si2O9), and the aluminum analogue (Pb2Al2Si2O9)
American Mineralogist, 2008, 93, 573-583
9010405 CIFAl2 O9 Pb2 Si2P b c n6.8981; 10.6906; 9.7413
90; 90; 90		718.37Dorsam, G.; Liebscher, A.; Wunder, B.; Franz, G.
Crystal structures of synthetic melanotekite (Pb2Fe2Si2O9), kentrolite (Pb2Mn2Si2O9), and the aluminum analogue (Pb2Al2Si2O9)
American Mineralogist, 2008, 93, 573-583
9010406 CIFFe H O2P b n m4.6163; 9.9564; 3.0248
90; 90; 90		139.025Alvarez, M.; Sileo, E. E.; Rueda, E. H.
Structure and reactivity of synthetic Co-substituted goethites Sample: G0, 0 mol% Co Note: changed OH(x) to match reported bond distances
American Mineralogist, 2008, 93, 584-590
9010407 CIFCo0.03 Fe0.97 H O2P b n m4.607; 9.9472; 3.021
90; 90; 90		138.443Alvarez, M.; Sileo, E. E.; Rueda, E. H.
Structure and reactivity of synthetic Co-substituted goethites Sample: G3, 3 mol% Co
American Mineralogist, 2008, 93, 584-590
9010408 CIFCo0.05 Fe0.95 H O2P b n m4.5975; 9.9395; 3.0183
90; 90; 90		137.927Alvarez, M.; Sileo, E. E.; Rueda, E. H.
Structure and reactivity of synthetic Co-substituted goethites Sample: G5, 5 mol% Co Note: changed O(x) to match reported bond distances
American Mineralogist, 2008, 93, 584-590
9010409 CIFCo0.07 Fe0.93 H O2P b n m4.5901; 9.9309; 3.0148
90; 90; 90		137.426Alvarez, M.; Sileo, E. E.; Rueda, E. H.
Structure and reactivity of synthetic Co-substituted goethites Sample: G7, 7 mol% Co
American Mineralogist, 2008, 93, 584-590
9010410 CIFCo0.1 Fe0.9 H O2P b n m4.58; 9.9198; 3.0102
90; 90; 90		136.761Alvarez, M.; Sileo, E. E.; Rueda, E. H.
Structure and reactivity of synthetic Co-substituted goethites Sample: G10, 10 mol% Co
American Mineralogist, 2008, 93, 584-590
9010411 CIFH2 Mg1.864 O4.129 SiI 1 2/m 15.6807; 11.5243; 8.2515
90; 90.09; 90		540.193Holl, C. M.; Smyth, J. R.; Jacobsen, S. D.; Frost, D. J.
Effects of hydration on the structure and compressibility of wadsleyite, beta-(Mg2SiO4) Locality: synthetic Sample: SS0401, 1.66 wt% H2O
American Mineralogist, 2008, 93, 598-607
9010412 CIFH2 Mg1.89 O4.092 SiI m m a5.6862; 11.5023; 8.2526
90; 90.013; 90		539.756Holl, C. M.; Smyth, J. R.; Jacobsen, S. D.; Frost, D. J.
Effects of hydration on the structure and compressibility of wadsleyite, beta-(Mg2SiO4) Locality: synthetic Sample: SS0402, 1.18 wt% H2O
American Mineralogist, 2008, 93, 598-607
9010413 CIFH2 Mg1.961 O4.03 SiI m m a5.6951; 11.4628; 8.2565
90; 90.001; 90		538.999Holl, C. M.; Smyth, J. R.; Jacobsen, S. D.; Frost, D. J.
Effects of hydration on the structure and compressibility of wadsleyite, beta-(Mg2SiO4) Locality: synthetic Sample: SS0403, 0.38 wt% H2O
American Mineralogist, 2008, 93, 598-607
9010414 CIFMg2 O4 SiI m m a5.7008; 11.4407; 8.2582
90; 90; 90		538.609Holl, C. M.; Smyth, J. R.; Jacobsen, S. D.; Frost, D. J.
Effects of hydration on the structure and compressibility of wadsleyite, beta-(Mg2SiO4) Sample: WS3056, 0.005 wt% H2O
American Mineralogist, 2008, 93, 598-607
9010415 CIFAl1.229 Fe0.781 H1.186 K Mg2.219 O12 Si2.704C 1 2/m 15.3278; 9.2225; 10.2087
90; 100.031; 90		493.943Ventruti, G.; Zema, M.; Scordari, F.; Pedrazzi, G.
Thermal behavior of a Ti-rich phlogopite from Mt. Vulture (Potenza, Italy): An in situ X-ray single-crystal diffraction study Sample: T = 100 K
American Mineralogist, 2008, 93, 632-643
9010416 CIFAl1.227 Fe0.799 H1.189 K Mg2.201 O12 Si2.699C 1 2/m 15.331; 9.2298; 10.2217
90; 100.031; 90		495.261Ventruti, G.; Zema, M.; Scordari, F.; Pedrazzi, G.
Thermal behavior of a Ti-rich phlogopite from Mt. Vulture (Potenza, Italy): An in situ X-ray single-crystal diffraction study Sample: T = 200 K
American Mineralogist, 2008, 93, 632-643
9010417 CIFAl1.226 Fe0.797 H1.187 K Mg2.203 O12 Si2.698C 1 2/m 15.3365; 9.2438; 10.2331
90; 100.031; 90		497.078Ventruti, G.; Zema, M.; Scordari, F.; Pedrazzi, G.
Thermal behavior of a Ti-rich phlogopite from Mt. Vulture (Potenza, Italy): An in situ X-ray single-crystal diffraction study Sample: T = 298 K
American Mineralogist, 2008, 93, 632-643
9010418 CIFAl1.224 Fe0.785 K Mg2.215 O12 Si2.693C 1 2/m 15.316; 9.2043; 10.1613
90; 100.06; 90		489.549Ventruti, G.; Zema, M.; Scordari, F.; Pedrazzi, G.
Thermal behavior of a Ti-rich phlogopite from Mt. Vulture (Potenza, Italy): An in situ X-ray single-crystal diffraction study Sample: T = 298 K after reversal experiment
American Mineralogist, 2008, 93, 632-643
9010419 CIFAl1.225 Fe0.784 K Mg2.216 O12 Si2.695C 1 2/m 15.34; 9.247; 10.2465
90; 100.055; 90		498.19Ventruti, G.; Zema, M.; Scordari, F.; Pedrazzi, G.
Thermal behavior of a Ti-rich phlogopite from Mt. Vulture (Potenza, Italy): An in situ X-ray single-crystal diffraction study Sample: T = 473 K
American Mineralogist, 2008, 93, 632-643
9010420 CIFAl1.225 Fe0.784 K Mg2.216 O12 Si2.695C 1 2/m 15.3526; 9.2727; 10.2787
90; 100.069; 90		502.306Ventruti, G.; Zema, M.; Scordari, F.; Pedrazzi, G.
Thermal behavior of a Ti-rich phlogopite from Mt. Vulture (Potenza, Italy): An in situ X-ray single-crystal diffraction study Sample: T = 673 K
American Mineralogist, 2008, 93, 632-643
9010421 CIFAl1.225 Fe0.786 K Mg2.214 O12 Si2.696C 1 2/m 15.3583; 9.2866; 10.296
90; 100.081; 90		504.423Ventruti, G.; Zema, M.; Scordari, F.; Pedrazzi, G.
Thermal behavior of a Ti-rich phlogopite from Mt. Vulture (Potenza, Italy): An in situ X-ray single-crystal diffraction study Sample: T = 873 K
American Mineralogist, 2008, 93, 632-643
9010422 CIFAl1.225 Fe0.785 K Mg2.215 O12 Si2.695C 1 2/m 15.356; 9.2798; 10.2863
90; 100.051; 90		503.41Ventruti, G.; Zema, M.; Scordari, F.; Pedrazzi, G.
Thermal behavior of a Ti-rich phlogopite from Mt. Vulture (Potenza, Italy): An in situ X-ray single-crystal diffraction study Sample: T = 873 K, after 14 h from previous measurement at same temperature
American Mineralogist, 2008, 93, 632-643
9010423 CIFAl1.224 Fe0.786 K Mg2.214 O12 Si2.694C 1 2/m 15.3621; 9.2897; 10.2986
90; 100.064; 90		505.104Ventruti, G.; Zema, M.; Scordari, F.; Pedrazzi, G.
Thermal behavior of a Ti-rich phlogopite from Mt. Vulture (Potenza, Italy): An in situ X-ray single-crystal diffraction study Sample: T = 1023 K
American Mineralogist, 2008, 93, 632-643
9010424 CIFAl0.236 Ca0.01 Fe0.967 Mg0.923 Mn0.016 O6 Si1.848P b c a18.2889; 8.8662; 5.2175
90; 90; 90		846.034Nestola, F.; Ballaran, T. B.; Balic-Zunic T; Secco, L.; Dal Negro, A.
The high-pressure behavior of an Al- and Fe-rich natural orthopyroxene Sample: P = 0 GPa, in air
American Mineralogist, 2008, 93, 644-652
9010425 CIFAl0.236 Ca0.01 Fe0.967 Mg0.923 Mn0.016 O6 Si1.848P b c a18.2889; 8.8662; 5.2175
90; 90; 90		846.034Nestola, F.; Ballaran, T. B.; Balic-Zunic T; Secco, L.; Dal Negro, A.
The high-pressure behavior of an Al- and Fe-rich natural orthopyroxene Sample: P = 0 GPa, in air, same # of reflections as DAC crystal
American Mineralogist, 2008, 93, 644-652
9010426 CIFAl0.236 Ca0.01 Fe0.967 Mg0.923 Mn0.016 O6 Si1.848P b c a18.2804; 8.8601; 5.2161
90; 90; 90		844.832Nestola, F.; Ballaran, T. B.; Balic-Zunic T; Secco, L.; Dal Negro, A.
The high-pressure behavior of an Al- and Fe-rich natural orthopyroxene Sample: P = 0.163 GPa
American Mineralogist, 2008, 93, 644-652
9010427 CIFAl0.236 Ca0.01 Fe0.967 Mg0.923 Mn0.016 O6 Si1.848P b c a18.2192; 8.8111; 5.1965
90; 90; 90		834.2Nestola, F.; Ballaran, T. B.; Balic-Zunic T; Secco, L.; Dal Negro, A.
The high-pressure behavior of an Al- and Fe-rich natural orthopyroxene Sample: P = 1.715 GPa
American Mineralogist, 2008, 93, 644-652
9010428 CIFAl0.236 Ca0.01 Fe0.967 Mg0.923 Mn0.016 O6 Si1.848P b c a18.1427; 8.746; 5.1716
90; 90; 90		820.609Nestola, F.; Ballaran, T. B.; Balic-Zunic T; Secco, L.; Dal Negro, A.
The high-pressure behavior of an Al- and Fe-rich natural orthopyroxene Sample: P = 3.947 GPa
American Mineralogist, 2008, 93, 644-652
9010429 CIFAl0.236 Ca0.01 Fe0.967 Mg0.923 Mn0.016 O6 Si1.848P b c a18.0221; 8.6456; 5.1327
90; 90; 90		799.736Nestola, F.; Ballaran, T. B.; Balic-Zunic T; Secco, L.; Dal Negro, A.
The high-pressure behavior of an Al- and Fe-rich natural orthopyroxene Sample: P = 8.033 GPa
American Mineralogist, 2008, 93, 644-652
9010430 CIFAl0.236 Ca0.01 Fe0.967 Mg0.923 Mn0.016 O6 Si1.848P b c a17.977; 8.61; 5.1227
90; 90; 90		792.902Nestola, F.; Ballaran, T. B.; Balic-Zunic T; Secco, L.; Dal Negro, A.
The high-pressure behavior of an Al- and Fe-rich natural orthopyroxene Sample: P = 9.562 GPa
American Mineralogist, 2008, 93, 644-652
9010431 CIFAl1.1 H9 Mg O14.92 Si3.9C 1 2/m 113.179; 17.852; 5.2316
90; 107.77; 90		1172.12Post, J. E.; Heaney, P. J.
Synchotron powder X-ray diffraction study of the structure and dehydration behavior of palygorskite Sample: T = 100 K
American Mineralogist, 2008, 93, 667-675
9010432 CIFAl2.2 H22 Mg2.14 O30 Si7.8C 1 2/m 113.2858; 17.8476; 5.2419
90; 107.56; 90		1185.04Post, J. E.; Heaney, P. J.
Synchotron powder X-ray diffraction study of the structure and dehydration behavior of palygorskite Sample: T = 300 K
American Mineralogist, 2008, 93, 667-675
9010433 CIFAl Mg O10.4 Si4P 1 21/a 110.755; 15.353; 5.281
90; 96.17; 90		866.956Post, J. E.; Heaney, P. J.
Synchotron powder X-ray diffraction study of the structure and dehydration behavior of palygorskite Sample: T = 1160 K
American Mineralogist, 2008, 93, 667-675
9010434 CIFAl0.058 Cr1.702 Fe0.122 Mg0.042 O3 Ti0.076R -3 c :H4.9696; 4.9696; 13.597
90; 90; 120		290.815Logvinova, A. M.; Wirth, R.; Sobolev, N. V.; Seryotkin, Y. V.; Yefimova, E. S.; Floss, C.; Taylor, L. A.
Eskolaite associated with diamond from the Udachnaya kimberlite pipe, Yakutia, Russia Locality: natural diamond, Udachnaya pipe, Yukutia, Russia
American Mineralogist, 2008, 93, 685-690
9010435 CIFAl0.09 Ca0.87 Fe1.91 H15.72 Na1.13 O29 P4 U1.888C 1 c 119.6441; 7.0958; 18.7029
90; 115.692; 90		2349.27Mills, S. J.; Birch, W. D.; Kolitsch, U.; Mumme, W. G.; Grey, I. E.
Lakebogaite, CaNaFe3+2H(UO2)2(PO4)4(OH)2(H2O)8, a new uranyl phosphate with a unique crystal structure from Victoria, Australia Locality: Upper Devonian granite, near Lake Boga, northern Victoria, Australia
American Mineralogist, 2008, 93, 691-697
9010436 CIFC H0.65 Ce0.5 F0.35 La0.23 Nd0.24 O3.65 Y0.03P -612.4112; 12.4112; 9.8511
90; 90; 120		1314.14Yang, H.; Dembowski, R. F.; Conrad, P. G.; Downs, R. T.
Crystal structure and Raman spectrum of hydroxyl-bastnasite-(Ce), CeCO3(OH) Note: changed Ce3(z) to .2579 according to authors Locality: Trimouns, Luzenac, France
American Mineralogist, 2008, 93, 698-701
9010438 CIFAs4.71 Bi6.97 Cl3 Pb9.6 S27 Sn0.72C 1 2/c 18.371; 45.502; 27.273
90; 98.83; 90		10265.1Pinto, D.; Bonaccorsi, E.; Balic-Zunic T; Makovicky, E.
The crystal structure of vurroite, Pb20Sn2(Bi,As)22S54Cl6: OD-character, polytypism, twinning, and modular description
American Mineralogist, 2008, 93, 713-727
9010439 CIFFe3 H6 K0.76 Na0.24 O14 S2R -3 m :H7.3045; 7.3045; 17.0875
90; 90; 120		789.569Basciano, L. C.; Peterson, R. C.
Crystal chemistry of the natrojarosite-jarosite and natrojarosite-hydronium jarosite solid-solution: A synthetic study with full Fe site occupancy Sample: K
American Mineralogist, 2008, 93, 853-862
9010440 CIFFe3 H6 K0.6 Na0.4 O14 S2R -3 m :H7.3052; 7.3052; 16.9706
90; 90; 120		784.318Basciano, L. C.; Peterson, R. C.
Crystal chemistry of the natrojarosite-jarosite and natrojarosite-hydronium jarosite solid-solution: A synthetic study with full Fe site occupancy Sample: L
American Mineralogist, 2008, 93, 853-862
9010441 CIFFe3 H6 K0.52 Na0.46 O14 S2R -3 m :H7.3079; 7.3079; 16.9028
90; 90; 120		781.762Basciano, L. C.; Peterson, R. C.
Crystal chemistry of the natrojarosite-jarosite and natrojarosite-hydronium jarosite solid-solution: A synthetic study with full Fe site occupancy Sample: M
American Mineralogist, 2008, 93, 853-862
9010442 CIFFe3 H6 K0.29 Na0.69 O14 S2R -3 m :H7.3101; 7.3101; 16.7658
90; 90; 120		775.892Basciano, L. C.; Peterson, R. C.
Crystal chemistry of the natrojarosite-jarosite and natrojarosite-hydronium jarosite solid-solution: A synthetic study with full Fe site occupancy Sample: N
American Mineralogist, 2008, 93, 853-862
9010443 CIFFe3 H6 K0.11 Na0.85 O14 S2R -3 m :H7.3144; 7.3144; 16.6491
90; 90; 120		771.399Basciano, L. C.; Peterson, R. C.
Crystal chemistry of the natrojarosite-jarosite and natrojarosite-hydronium jarosite solid-solution: A synthetic study with full Fe site occupancy Sample: O
American Mineralogist, 2008, 93, 853-862
9010444 CIFFe3 H6 Na O14 S2R -3 m :H7.31525; 7.31525; 16.5868
90; 90; 120		768.691Basciano, L. C.; Peterson, R. C.
Crystal chemistry of the natrojarosite-jarosite and natrojarosite-hydronium jarosite solid-solution: A synthetic study with full Fe site occupancy Sample: P
American Mineralogist, 2008, 93, 853-862
9010445 CIFFe3 H6.13 Na0.87 O14 S2R -3 m :H7.31984; 7.31984; 16.6474
90; 90; 120		772.468Basciano, L. C.; Peterson, R. C.
Crystal chemistry of the natrojarosite-jarosite and natrojarosite-hydronium jarosite solid-solution: A synthetic study with full Fe site occupancy Sample: Q
American Mineralogist, 2008, 93, 853-862
9010446 CIFFe3 H6.33 Na0.67 O14 S2R -3 m :H7.3254; 7.3254; 16.7209
90; 90; 120		777.057Basciano, L. C.; Peterson, R. C.
Crystal chemistry of the natrojarosite-jarosite and natrojarosite-hydronium jarosite solid-solution: A synthetic study with full Fe site occupancy Sample: R
American Mineralogist, 2008, 93, 853-862
9010447 CIFFe3 H6.51 Na0.49 O14 S2R -3 m :H7.33876; 7.33876; 16.8105
90; 90; 120		784.073Basciano, L. C.; Peterson, R. C.
Crystal chemistry of the natrojarosite-jarosite and natrojarosite-hydronium jarosite solid-solution: A synthetic study with full Fe site occupancy Sample: S
American Mineralogist, 2008, 93, 853-862
9010448 CIFFe3 H6.65 Na0.35 O14 S2R -3 m :H7.342; 7.342; 16.8574
90; 90; 120		786.955Basciano, L. C.; Peterson, R. C.
Crystal chemistry of the natrojarosite-jarosite and natrojarosite-hydronium jarosite solid-solution: A synthetic study with full Fe site occupancy Sample: T
American Mineralogist, 2008, 93, 853-862
9010449 CIFFe3 H6.76 Na0.24 O14 S2R -3 m :H7.34742; 7.34742; 16.9253
90; 90; 120		791.292Basciano, L. C.; Peterson, R. C.
Crystal chemistry of the natrojarosite-jarosite and natrojarosite-hydronium jarosite solid-solution: A synthetic study with full Fe site occupancy Sample: U
American Mineralogist, 2008, 93, 853-862
9010450 CIFFe0.61 Mn0.04 S Zn0.35F -4 3 m5.441; 5.441; 5.441
90; 90; 90		161.078Britvin, S. N.; Bogdanova, A. N.; Boldyreva, M. M.; Aksenova, G. Y.
Rudashevskyite, the Fe-dominant analogue of sphalerite, a new mineral: Description and crystal structure Sample: Domain 1
American Mineralogist, 2008, 93, 902-909
9010451 CIFFe0.61 Mn0.04 S Zn0.35F -4 3 m5.439; 5.439; 5.439
90; 90; 90		160.9Britvin, S. N.; Bogdanova, A. N.; Boldyreva, M. M.; Aksenova, G. Y.
Rudashevskyite, the Fe-dominant analogue of sphalerite, a new mineral: Description and crystal structure Sample: Domain 2
American Mineralogist, 2008, 93, 902-909
9010452 CIFFe0.61 Mn0.04 S Zn0.35F -4 3 m5.444; 5.444; 5.444
90; 90; 90		161.345Britvin, S. N.; Bogdanova, A. N.; Boldyreva, M. M.; Aksenova, G. Y.
Rudashevskyite, the Fe-dominant analogue of sphalerite, a new mineral: Description and crystal structure Sample: Domain 3
American Mineralogist, 2008, 93, 902-909
9010453 CIFCd2 Cu2 H10 O17 P2 SP n m a10.4768; 20.8938; 6.164
90; 90; 90		1349.3Elliot, P.; Brugger, J.; Pring, A.; Cole, M. L.; Willis, A. C.; Kolitsch, U.
Birchite, a new mineral from Broken Hill, New South Wales, Australia: Description and structure refinement
American Mineralogist, 2008, 93, 910-917
9010454 CIFAl8 B4 O18C 1 2/m 114.8056; 5.5413; 15.0531
90; 90.913; 90		1234.83Fischer, R. X.; Kahlenberg, V.; Voll, D.; MacKenzie, K. J. D.; Smith, M. E.; Schnetger, B.; Brumsack, H.-J.; Schneider, H.
Crystal structure of synthetic Al4B2O9: A member of the mullite family closely related to boralsilite
American Mineralogist, 2008, 93, 918-927
9010455 CIFFe3 H18 Mg2 Na O26 P4P 1 2/a 115.0811; 7.1403; 9.8299
90; 110.445; 90		991.841Kampf, A. R.; Steele, I. M.; Loomis, T. A.
Jahnsite-(NaFeMg), a new mineral from the Tip Top mine, Custer County, South Dakota: Description and crystal structure
American Mineralogist, 2008, 93, 940-945
9010456 CIFGe Mg O3C m c m2.5718; 8.3274; 6.3536
90; 90; 90		136.071Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S.
Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: A036, P = 105.4 GPa, T = 300 K
American Mineralogist, 2008, 93, 965-976
9010457 CIFGe Mg O3C m c m2.5677; 8.3132; 6.3453
90; 90; 90		135.446Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S.
Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: A038, P = 109.3 GPa, T = 300 K
American Mineralogist, 2008, 93, 965-976
9010458 CIFGe Mg O3C m c m2.5811; 8.3628; 6.373
90; 90; 90		137.563Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S.
Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: A042, P = 100.2 GPa, T = 300 K
American Mineralogist, 2008, 93, 965-976
9010459 CIFGe Mg O3C m c m2.6001; 8.4123; 6.4099
90; 90; 90		140.203Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S.
Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: B017, P = 92.1 GPa, T = 1740 K
American Mineralogist, 2008, 93, 965-976
9010460 CIFGe Mg O3C m c m2.5987; 8.4107; 6.4079
90; 90; 90		140.057Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S.
Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: B018, P = 93.6 GPa, T = 1420 K
American Mineralogist, 2008, 93, 965-976
9010461 CIFGe Mg O3C m c m2.5971; 8.4089; 6.4064
90; 90; 90		139.908Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S.
Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: B019, P = 87.8 GPa, T = 300 K
American Mineralogist, 2008, 93, 965-976
9010462 CIFGe Mg O3C m c m2.5949; 8.4009; 6.4013
90; 90; 90		139.545Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S.
Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: B020, P = 89.5 GPa, T = 300 K
American Mineralogist, 2008, 93, 965-976
9010463 CIFGe Mg O3C m c m2.6018; 8.4259; 6.4161
90; 90; 90		140.657Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S.
Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: B038, P = 85.0 GPa, T = 300 K
American Mineralogist, 2008, 93, 965-976
9010464 CIFGe Mg O3C m c m2.6113; 8.4602; 6.4381
90; 90; 90		142.231Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S.
Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: B040, P = 79.2 GPa, T = 300 K
American Mineralogist, 2008, 93, 965-976
9010465 CIFGe Mg O3C m c m2.6127; 8.4674; 6.4413
90; 90; 90		142.499Kubo, A.; Kiefer, B.; Shim, S. H.; Shen, G.; Prakapenka, V. B.; Duffy, T. S.
Rietveld structure refinement of MgGeO3 post-perovskite phase to 1 Mbar Sample: B041, P = 78.2 GPa, T = 300 K
American Mineralogist, 2008, 93, 965-976
9010466 CIFAl Cs O4 SiP c 21 n9.414; 5.435; 8.875
90; 90; 90		454.09Gatta, G. D.; Rotiroti, N.; Zanazzi, P. F.; Rieder, M.; Drabek, M.; Weiss, Z.; Klaska, R.
Synthesis and crystal structure of the feldspathoid CsAlSiO4: An open-framework silicate and potential nuclear waste disposal phase
American Mineralogist, 2008, 93, 988-995
9010467 CIFB0.8 Be1.08 Ca0.8 Ce0.24 Dy0.04 Er0.02 Eu2 Fe0.71 Gd0.04 La0.06 Li0.35 Mg0.02 Mn0.03 Nd0.16 O10 Pr0.04 Si2 Sm0.04 Th0.14 U0.02 Y0.38 Yb0.02P 1 21/c 14.7708; 7.6229; 9.8975
90; 90.017; 90		359.946Camara, F.; Oberti, R.; Ottolini, L.; Ventura, G. D.; Bellatreccia, F.
The crystal chemistry of Li in gadolinite
American Mineralogist, 2008, 93, 996-1004
9010468 CIFCa Fe O6 Si2C 1 2/c 19.8447; 9.0234; 5.2509
90; 104.862; 90		450.847Nestola, F.; Ballaran, T. B.; Liebske, C.; Thompson, R.; Downs, R. T.
The effect of the hedenbergitic substitution on the compressibility of jadeite Sample: Jd0Hd100 at P = 0 GPa
American Mineralogist, 2008, 93, 1005-1013
9010469 CIFCa Fe O6 Si2C 1 2/c 19.7553; 8.8998; 5.1923
90; 104.29; 90		436.848Nestola, F.; Ballaran, T. B.; Liebske, C.; Thompson, R.; Downs, R. T.
The effect of the hedenbergitic substitution on the compressibility of jadeite Sample: Jd0Hd100 at P = 3.80 GPa
American Mineralogist, 2008, 93, 1005-1013
9010470 CIFAl Na O6 Si2C 1 2/c 19.4278; 8.5651; 5.2262
90; 107.624; 90		402.208Nestola, F.; Ballaran, T. B.; Liebske, C.; Thompson, R.; Downs, R. T.
The effect of the hedenbergitic substitution on the compressibility of jadeite Sample: Jd100Hd0, P = 0 GPa
American Mineralogist, 2008, 93, 1005-1013
9010471 CIFAl Na O6 Si2C 1 2/c 19.3488; 8.5013; 5.1856
90; 107.345; 90		393.395Nestola, F.; Ballaran, T. B.; Liebske, C.; Thompson, R.; Downs, R. T.
The effect of the hedenbergitic substitution on the compressibility of jadeite Sample: Jd100Hd0, P = 3.14 GPa
American Mineralogist, 2008, 93, 1005-1013
9010472 CIFAl Na O6 Si2C 1 2/c 19.2411; 8.4053; 5.1236
90; 106.906; 90		380.773Nestola, F.; Ballaran, T. B.; Liebske, C.; Thompson, R.; Downs, R. T.
The effect of the hedenbergitic substitution on the compressibility of jadeite Sample: Jd100Hd0, P = 8.31 GPa
American Mineralogist, 2008, 93, 1005-1013
9010473 CIFAl0.24 Ca0.76 Fe0.76 Na0.24 O6 Si2C 1 2/c 19.734; 8.9103; 5.2682
90; 105.904; 90		439.436Nestola, F.; Ballaran, T. B.; Liebske, C.; Thompson, R.; Downs, R. T.
The effect of the hedenbergitic substitution on the compressibility of jadeite Sample: Jd24Hd76, P = 0 GPa
American Mineralogist, 2008, 93, 1005-1013
9010474 CIFAl0.24 Ca0.76 Fe0.76 Na0.24 O6 Si2C 1 2/c 19.641; 8.792; 5.2122
90; 105.391; 90		425.961Nestola, F.; Ballaran, T. B.; Liebske, C.; Thompson, R.; Downs, R. T.
The effect of the hedenbergitic substitution on the compressibility of jadeite Sample: Jd24Hd76, P = 3.87 GPa
American Mineralogist, 2008, 93, 1005-1013
9010475 CIFAl0.24 Ca0.76 Fe0.76 Na0.24 O6 Si2C 1 2/c 19.5525; 8.6648; 5.155
90; 104.972; 90		412.197Nestola, F.; Ballaran, T. B.; Liebske, C.; Thompson, R.; Downs, R. T.
The effect of the hedenbergitic substitution on the compressibility of jadeite Sample: Jd24Hd76, P = 8.76 GPa
American Mineralogist, 2008, 93, 1005-1013
9010476 CIFAl0.52 Ca0.47 Fe0.48 Na0.53 O6 Si2C 1 2/c 19.6031; 8.7735; 5.2656
90; 106.725; 90		424.874Nestola, F.; Ballaran, T. B.; Liebske, C.; Thompson, R.; Downs, R. T.
The effect of the hedenbergitic substitution on the compressibility of jadeite Sample: Jd53Hd47, P = 0 GPa
American Mineralogist, 2008, 93, 1005-1013
9010477 CIFAl0.52 Ca0.47 Fe0.48 Na0.53 O6 Si2C 1 2/c 19.5135; 8.6765; 5.2158
90; 106.317; 90		413.191Nestola, F.; Ballaran, T. B.; Liebske, C.; Thompson, R.; Downs, R. T.
The effect of the hedenbergitic substitution on the compressibility of jadeite Sample: Jd53Hd47, P = 3.65 GPa
American Mineralogist, 2008, 93, 1005-1013
9010478 CIFAl0.52 Ca0.47 Fe0.48 Na0.53 O6 Si2C 1 2/c 19.4632; 8.617; 5.1857
90; 106.097; 90		406.286Nestola, F.; Ballaran, T. B.; Liebske, C.; Thompson, R.; Downs, R. T.
The effect of the hedenbergitic substitution on the compressibility of jadeite Sample: Jd53Hd47, P = 6.09 GPa
American Mineralogist, 2008, 93, 1005-1013
9010479 CIFC H2 Ca O4P 3110.5547; 10.5547; 7.5644
90; 90; 120		729.788Swainson, I. P.
The structure of monohydrocalcite and the phase composition of the beachrock deposits of Lake Butler and Lake Fellmongery, South Australia
American Mineralogist, 2008, 93, 1014-1018
9010480 CIFAl Na0.981 O4 SiP 1 1 219.9897; 9.9622; 24.979
90; 90; 119.788		2157.43Vulic, P.; Kahlenberg, V.; Konzett, J.
On the existence of a Na-deficient monoclinic trinepheline with composition Na7.85Al7.85Si8.15O32
American Mineralogist, 2008, 93, 1072-1079
9010481 CIFCa Ir O3C m c m3.1472; 9.8655; 7.3018
90; 90; 90		226.711Sugahara, M.; Yoshiasa, A.; Yoneda, A.; Hashimoto, T.; Sakai, S.; Okube, M.; Nakatsuka, A.; Ohtaka, O.
Single-crystal X-ray diffraction study of CaIrO3 Note: post-perovskite structure
American Mineralogist, 2008, 93, 1148-1152
9010482 CIFBe H Na O8 Si3P n m a12.7334; 13.6298; 7.3467
90; 90; 90		1275.05Gatta, G. D.; Rotiroti, N.; McIntyre, G. J.; Guastoni, A.; Nestola, F.
New insights into the crystal chemistry of epididymite and eudidymite from Malosa, Malawi: A single-crystal neutron diffraction study
American Mineralogist, 2008, 93, 1158-1165
9010483 CIFBe2 H2 Na2 O16 Si6C 1 2/c 112.6188; 7.3781; 13.994
90; 103.762; 90		1265.48Gatta, G. D.; Rotiroti, N.; McIntyre, G. J.; Guastoni, A.; Nestola, F.
New insights into the crystal chemistry of epididymite and eudidymite from Malosa, Malawi: A single-crystal neutron diffraction study
American Mineralogist, 2008, 93, 1158-1165
9010484 CIFAs3 Co1.5 Fe1.5 S3P n 21 m14.158; 5.6462; 3.3196
90; 90; 90		265.365Yang, H.; Downs, R. T.
Crystal structure of glaucodot, (Co,Fe)AsS, and its relationships to marcasite and arsenopyrite
American Mineralogist, 2008, 93, 1183-1186
9010485 CIFAl2 Na2 O10 Si3F d d 217.574; 18.161; 6.3674
90; 90; 90		2032.23Wang, H.; Bish, D. L.
A PH2O-dependent structural phase transition in the zeolite natrolite Sample: alpha2-metanatrolite at 400 C, 0.15 mbar
American Mineralogist, 2008, 93, 1191-1194
9010486 CIFGe Mg2 O4F d -3 m :28.246; 8.246; 8.246
90; 90; 90		560.699Thomas, S. M.; Muller, M. K.; Kahlenberg, V.; Thomas, R.; Rhede, D.; Wirth, R.; Wunder, B.
Protonation in germanium equivalents of ringwoodite, anhydrous phase B, and superhydrous phase B Note: Ge-ringwoodite
American Mineralogist, 2008, 93, 1282-1294
9010487 CIFGe5 Mg14 O24P b a m14.52; 10.231; 5.947
90; 90; 90		883.451Thomas, S. M.; Muller, M. K.; Kahlenberg, V.; Thomas, R.; Rhede, D.; Wirth, R.; Wunder, B.
Protonation in germanium equivalents of ringwoodite, anhydrous phase B, and superhydrous phase B Note: Ge-anhydrous phase B
American Mineralogist, 2008, 93, 1282-1294
9010488 CIFGe3 H4 Mg10 O18P n n 214.202; 5.1676; 8.8756
90; 90; 90		651.383Thomas, S. M.; Muller, M. K.; Kahlenberg, V.; Thomas, R.; Rhede, D.; Wirth, R.; Wunder, B.
Protonation in germanium equivalents of ringwoodite, anhydrous phase B, and superhydrous phase B Note: superhydrous phase B Ge-ringwoodite Note: published bond lengths could not be reproduced
American Mineralogist, 2008, 93, 1282-1294
9010489 CIFCa9.181 Fe0.429 H0.693 Mg0.571 O28 P7R 3 c :H10.3612; 10.3612; 37.096
90; 90; 120		3448.88Hughes, J. M.; Jolliff, B. L.; Rakovan, J.
The crystal chemistry of whitlockite and merrillite and the dehydrogenation of whitlockite to merrillite Locality: Palermo Mine, North Groton, Grafton County, New Hampshire
American Mineralogist, 2008, 93, 1300-1305
9010490 CIFCa9.061 Fe0.014 H0.89 Mg0.986 O28 P7R 3 c :H10.3477; 10.3477; 37.077
90; 90; 120		3438.14Hughes, J. M.; Jolliff, B. L.; Rakovan, J.
The crystal chemistry of whitlockite and merrillite and the dehydrogenation of whitlockite to merrillite Locality: Tip Top Pegmatite, Custer County, South Dakota
American Mineralogist, 2008, 93, 1300-1305
9010491 CIFCa9.06 Fe0.079 H0.87 Mg0.921 O28 P7R 3 c :H10.3571; 10.3571; 37.138
90; 90; 120		3450.05Hughes, J. M.; Jolliff, B. L.; Rakovan, J.
The crystal chemistry of whitlockite and merrillite and the dehydrogenation of whitlockite to merrillite Locality: synthetic Note: Standard temperature and pressure
American Mineralogist, 2008, 93, 1300-1305
9010492 CIFCa9.036 Fe0.084 H0.831 Mg0.916 O27.28 P7R 3 c :H10.3597; 10.3597; 37.161
90; 90; 120		3453.92Hughes, J. M.; Jolliff, B. L.; Rakovan, J.
The crystal chemistry of whitlockite and merrillite and the dehydrogenation of whitlockite to merrillite Note: Heated at 500 degrees C
American Mineralogist, 2008, 93, 1300-1305
9010493 CIFCa9.443 Fe0.065 Mg0.935 O28 P6.964R 3 c :H10.3499; 10.3499; 37.115
90; 90; 120		3443.12Hughes, J. M.; Jolliff, B. L.; Rakovan, J.
The crystal chemistry of whitlockite and merrillite and the dehydrogenation of whitlockite to merrillite Note: Formed through dehydrogenation of synthetic whitlockite by heating at 1050 degrees C for 24 hours
American Mineralogist, 2008, 93, 1300-1305

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