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Name: Cristobalite RRUFF ID: R060648 Ideal Chemistry: SiO2 Locality: Idaho, USA Source: Gemological Institute of America 29236 [view label] Owner: RRUFF Description: Blue cryptocrystalline massive, variety opal Status: The identification of this mineral has been confirmed by X-ray diffraction and chemical analysis |
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Mineral Group: [ Cristobalite (11) ] | ||
Quick search: [ All Cristobalite samples (7) ] |
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POWDER DIFFRACTION | ||||||||
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RRUFF ID: | R060648.1 | |||||||
Sample Description: | Powder | |||||||
Cell Refinement Output: |
a: 4.9713(1)Å b: 4.9713(1)Å c: 6.9327(4)Å alpha: 90° beta: 90° gamma: 90° Volume: 171.33(1)Å3 Crystal System: tetragonal |
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REFERENCES for Cristobalite | |
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American Mineralogist Crystal Structure Database Record: [view record] |
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Anthony J W, Bideaux R A, Bladh K W, and Nichols M C (1990) Handbook of Mineralogy, Mineral Data Publishing, Tucson Arizona, USA, by permission of the Mineralogical Society of America. [view file] |
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vom Rath G (1887) Ueber Cristobalit vom Cerro S. Cristóbal bei Pachuca (Mexico), Neues Jahrbuch für Mineralogie, Geologie und Palaontologie, 1887, 198-199 [view file] |
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Murdoch J (1942) Crystallographic notes: cristobalite, stephanite, natrolite, American Mineralogist, 27, 500-506 [view file] |
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Van Valkenburg A, Buie B F (1945) Octahedral cristobalite with quartz paramorphs from Ellora Caves, Hyderabad State, India, American Mineralogist, 30, 526-535 [view file] |
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Flörke V O W (1955) Strukturanomalien bei Tridymit und Cristobalit, Berichte der Deutschen Keramischen Gesellschaft., 32, 369-381 |
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Flörke V O W (1957) Über die röntgen-mineralanalyse und die thermische ausdehnung von cristobalit and tridymit und über die zusammensetzung von silikamassen, Deutschen Keramischen Gesellschaft, 34, 343-390 |
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Dollase W A (1965) Reinvestigation of the structure of low cristobalite, Zeitschrift für Kristallographie, 121, 369-377 |
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Appleman D E, Nissen H U, Stewart D B, Clark J R, Dowty E, Huebner J S (1971) Studies of lunar plagioclases, tridymite, and cristobalite, Proceedings of the Second Lunar Science Conference, 1, 117-133 [view file] |
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Jones J B, Segnit E R (1972) Genesis of cristobalite and tridymite at low temperatures, Journal of the Geological Society of Australia, 18, 419-422 |
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Mason B (1972) Lunar tridymite and cristobalite, American Mineralogist, 57, 1530-1535 [view file] |
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Leadbetter A J, Smith T W, Wright A F (1973) Structure of high cristobalite, Nature Physical Science, 244, 125-126 |
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Peacor D P (1973) High-temperature single-crystal study of the cristobalite inversion, Zeitschrift für Kristallographie, 138, 274-298 [view file] |
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Peacor D R (1973) High-temperature single-crystal study of the cristobalite inversion, Zeitschrift für Kristallographie, 138, 274-298 |
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Cohen L H, Klement W (1975) Differential thermal analysis investigation of the high-low cristobalite inversion under hydrostatic pressure to 7 kbar, Journal of the American Ceramic Society, 58, 206-208 |
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Pluth J J, Smith J V, Faber J (1985) Crystal structure of low cristobalite at 10, 293, and 473 K: Variation of framework geometry with temperature, Journal of Applied Physics, 57, 1045-1049 |
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de Jong B H W S, van Hoek J, Veeman W S, Manson D V (1987) X-ray diffraction and 29Si magic-angle-spinning NMR of opals: incoherent long- and short-range order in opal-CT, American Mineralogist, 72, 1195-1203 [view file] |
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Drees L R, Wilding L P, Smeck N E, Senkayi A L (1989) Silica in soils: quartz and disordered silica polymorphs, in Minerals in Soil Environments Editor S B Weed. Soil Science Society of America Madison Wisconsin, USA 913-974 |
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Hatch D M, Ghose S (1991) The α-ß transition in cristobalite, SiO2, Physics and Chemistry of Minerals, 17, 554-562 |
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Downs R T, Palmer D C (1994) The pressure behavior of α cristobalite, American Mineralogist, 79, 9-14 [view file] |
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Elzea J M, Odom I E, Miles W J (1994) Distinguishing well ordered opal-CT and opal-C from high temperature cristobalite by X-ray diffraction, Analytica Chimica Acta, 286, 107-116 |
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Elzea J M, Odom I E, Miles W J (1994) Distinguishing well ordered opal-CT and opal-C from high temperature cristobalite by x-ray diffraction, Analytica Chimica Acta, 286, 107-116 [view file] |
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Palmer D C, Finger L W (1994) Pressure-induced phase transition in cristobalite: An X-ray powder diffraction study to 4.4 GPa, American Mineralogist, 79, 1-8 [view file] |
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Swamy V, Saxena S K, Sundman B, Zhang J (1994) A thermodynamic assessment of silica phase diagram, Journal of Geophysical Research, 99, 11787-11794 |
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Elzea J M, Rice S B (1996) TEM and X-ray diffraction evidence for cristobalite and tridymite stacking sequences in opal, Clays and Clay Minerals, 44, 492-500 |
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Dove M T, Craig M S, Keen D A, Marshall W G, Redfern S A T, Trachenko K O, Tucker M G (2000) Crystal structure of the high-pressure monoclinic phase-II of cristobalite, SiO2, Mineralogical Magazine, 64, 569-576 [view file] |
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Monger H C, Kelly E F (2002) Silica minerals, in Soil Mineralogy with Environmental Applications Soil Science Society of America Madison Wisconsin, USA 611-636 |
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Huang L, Durandurdu M, Kieffer J (2006) Transformation pathways of silica under high pressure, Nature Materials, 5, 977-981 |
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Garg N, Sharma S M (2007) Classical molecular dynamical simulations of high pressure behavior of alpha cristobalite (SiO2), Journal of Physics: Condensed Matter, 19, 456201 |
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Liang Y, Miranda C R, Scandolo S (2007) Tuning oxygen packing in silica by nonhydrostatic pressure, Physical Review Letters, 99, 215504-4 |
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Donadio D, Martonak R, Raiteri P, Parrinello M (2008) Influence of temperature and anisotropic pressure on the phase transitions in α-cristobalite, Physical Review Letters, 100, 165502-4 |
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Dera P, Lazarz J D, Prakapenka V B, Barkley M, Downs R T (2011) New insights into the high-pressure polymorphism of SiO2 cristobalite, Physics and Chemistry of Minerals, 38, 517-529 |
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Jackson J C, Horton Jr. J W, Chou I, Belkin H E (2011) Monoclinic tridymite in clast-rich impact melt rock from the Chesapeake Bay impact structure, American Mineralogist, 96, 81-88 |
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Poswal H K, Garg N, Somayazulu M, Sharma S M (2013) Pressure-induced structural transformations in the low-cristobalite form of AlPO4, American Mineralogist, 98, 285-291 |
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Matsui M, Sato T, Funamori N (2014) Crystal structures and stabilities of cristobalite-helium phases at high pressures, American Mineralogist, 99, 184-189 |
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Seddio A M, Korotev R L, Jolliff B L, Wang A (2015) Silica polymorphs in lunar granite: implications for granite petrogenesis on the Moon, American Mineralogist, 100, 1533-1543 |
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Nattrass C, Horwell C J , Damby D E , Brown D, Stone V (2017) The effect of aluminium and sodium impurities on the in vitro toxicity and pro-inflammatory potential of cristobalite, Environmental Research, 159, 164-175 |
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Arasuna A, Kigawa M, Fujii S, Endo T, Takahashi K, Okuno M (2018) Structural characterization of the body frame and spicules of a glass sponge, Minerals, 8, 88 [view file] |
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Nesbitt H W, Bancroft G M, Henderson G S (2018) Temperature dependence of Raman shifts and line widths for Q0 and Q2 crystals of silicates, phosphates, and sulphates, American Mineralogist, 103, 966-976 |
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Novembre D, Pace C, Gimeno D (2018) Synthesis and characterization of wollastonite-2M by using a diatomite precursor, Mineralogical Magazine, 82, 95-110 |
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Sirotkina E A, Bindi L, Bobrov A V, Tamarova A, Pushcharovsky D Y, Irifune T (2018) X-ray single-crystal structural characterization of Na2MgSiO4 with cristobalite-type structure syntheised at 22 GPa and 1800 °C, European Journal of Mineralogy, 30, 485-489 |
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Takada A, Glaser K J, Bell R G, Catlow C R A (2018) Molecular dynamics study of tridymite, IUCrJ, 5, 325-334 |
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Lee S, Xu H (2019) Using powder XRD and pair distribution function to determine anisotropic atomic displacement parameters of orthorhombic tridymite and tetragonal cristobalite, Acta Crystallographica, B75, S2052520619000933 |
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Schipper C I, Rickard W D A, Reddy S M, Saxey D W, Castro J M, Fougerouse D, Quadir Z, Conway C, Prior D J, Lilly K (2020) Volcanic SiO2-cristobalite: A natural product of chemical vapor deposition, American Mineralogist, 105, 510-524 |
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Di Benedetto F, Giaccherini A, Romanelli M, Montegrossi G, Belluso E, Capella S, Zoleo A, Arcangeli G, Marinaccio A, Gottardo O, Capacci F (2021) A study of radicals in industrial raw cristobalite powders, Physics and Chemistry of Minerals, 48, 9 |
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Cavosie A J, Rickard W D A, Evans N J, Rankenburg K, Roberts M, Macris C A, Koeberl C (2022) Origin of β-cristobalite in Libyan Desert glass: The hottest naturally occurring silica polymorph?, American Mineralogist, 107, 1325-1340 |
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