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The O-Si (Oxygen-Silicon) system

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Bulletin of Alloy Phase Diagrams

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Cited References

  1. H. LeChatelier, “On the Dilation of Quartz,”Bull. Soc. Fr. Min’er., 13, 112–118 (1890) in French. (Equi Diagram; Experimental)

    Google Scholar 

  2. C.N. Fermer, “The Stability Relations of the Silica Minerals,”Am. J. Sci., 4, 36, 331–384 (1913). (Equi Diagram, Meta Phases; Experimental)

    Google Scholar 

  3. C.N. Fenner, “Stability Relations of the Silica Minerals,”Z. Anorg. Chem., 85, 133–197 (1914) in German. (Equi Diagram, Meta Phases; Experimental)

    Article  Google Scholar 

  4. W. Bragg and R.E. Gibbs, “The Structure of α and β Quartz,”Proc. R. Soc. (London), A, 109, 405–427 (1925). (Crys Structure; Experimental)

    Article  ADS  Google Scholar 

  5. N. Seljakow, L. Strutinski, and A. Krasnikow, “On the Question of the Structures of Glass,”Z. Phys. B, 33, 53–62 (1925) in German. (Crys Structure; Experimental)

    Google Scholar 

  6. R.W.G. Wyckoff, “The Crystal Structure of the High Temperature Form of Cristobalite (SiO2),”Am. J. Sci., 5, 9, 448–459 (1925). (Crys Structure; Experimental)

    Article  Google Scholar 

  7. R.E. Gibbs, “The Polymorphism of Silicon Dioxide and the Structure of Tridymite,”Proc. R. Soc. (London) A, 113, 351–369 (1926). (Crys Structure; Experimental)

    Article  ADS  Google Scholar 

  8. R.W.G. Wyckoff, “The Crystal Structure of the High Temperature(gb-) Modification of Quartz,”Am. J. Sci., 5, 11, 101–112 (1926). (Crys Structure; Experimental)

    Article  Google Scholar 

  9. R.W.G. Wyckoff, “Criteria for Hexagonal Space Groups and the Crystal Structure of β-Quartz,”Z. Kristallogr., 63, 503–537 (1926) in German. (Crys Structure; Experimental)

    Google Scholar 

  10. J.W. Greig, “Immiscibility of Silicate Melts,”Am. J. Sci., 5, 13, 1–44 (1927). (Equi Diagram; Experimental)

    Article  Google Scholar 

  11. R.E. Gibson, “The Influence of Pressure on the High-Low Inversion of Quartz,”J. Phys. Chem., 32, 1197–1205 (1928). (Equi Diagram; Experimental)

    Article  Google Scholar 

  12. T.F.W. Barth, “The Cristobalite Structures: I. High-Cristobalite,”Am. J. Sci., 5, 23, 350–355 (1932). (Crys Structure; Experimental)

    Article  Google Scholar 

  13. T.F.W. Barth, “The Cristobalite Structures: II. Low-Cristobalite,”Am. J. Sci., 5, 24, 97–110 (1932). (Crys Structure; Experimental)

    Article  Google Scholar 

  14. A.H. Jay, “The Thermal Expansion of Quartz by X-Ray Measurements,”Proc. R. Soc. (London) A, 142, 237–247 (1933). (Crys Structure; Experimental)

    Article  ADS  Google Scholar 

  15. M.J. Buerger, “The Silica Framework Crystals and Their Stability Fields,”Z. Kristallogr., 90, 186–192 (1935). (Crys Structure, Equi Diagram, Meta Phases; Review)

    Google Scholar 

  16. W. Büssem, “X-Ray Diffraction Measurements of Expansion of Crystalline Bodies I.”Ber. Deut. Keram. Ges., 16(8), 381–392 (1935) in German. (Crys Structure; Experimental)

    Google Scholar 

  17. W. Nieuwenkamp, “The Crystal Structure of Low-Cristobalite SiO2,”Z. Kristallogr., 92, 82–88 (1935) in German. (Crys Structure; Experimental)

    Google Scholar 

  18. M.A. Sanfourche, “Details of the Oxidation of Silicon,”Rev. M’et., 32, 182–188 (1935) in French. (Meta Phases; Experimental)

    Google Scholar 

  19. C.T. Anderson, “The Heat Capacities of Quartz, Cristobalite and Tridymite at Low Temperatures,”J. Am. Chem. Soc., 58, 568–570 (1936). (Thermo; Experimental)

    Article  Google Scholar 

  20. W.L. Bragg,Atomic Structure of Minerals, Cornell Univ. Press, Ithaca, NY, 83–90 (1937). (Crys Structure; Review)

    Google Scholar 

  21. W. Nieuwenkamp, “On the Structure of High-Cristobalite,”Z. Kristallogr., 96, 454–458 (1937) in German. (Crys Structure; Experimental)

    Google Scholar 

  22. F.C. Kracek, “Phase Equilibrium Relations in the System Na2SiO3-Li2SiO3-SiO2,”J. Am. Chem. Soc., 61, 2863–2877 (1939). (Equi Diagram; Experimental)

    Article  Google Scholar 

  23. H. Inuzuka, “Crystal Structure of Silicon Monoxide,”Mazda Kenkyu Ziho, 15, 305–309 (1940) in Japanese;Chem. Abstr. 36, 4001 (1942). (Crys Structure; Experimental)

    Google Scholar 

  24. M.A. Mosesman and K.S. Pitzer, Thermodynamic Properties of the Crystalline Forms of Silica,”J. Am. Chem. Soc., 63, 2348–2356 (1941). (Equi Diagram, Meta Phases; Thermo; Experimental)

    Article  Google Scholar 

  25. J.L. Rosenholtz and D.T. Smith, “Linear Thermal Expansion and Inversions of Quartz, Var. Rock Crystal,”Am. Miner., 26, 103–109 (1941). (Equi Diagram Experimental)

    Google Scholar 

  26. J.S. Lukesh and M.J. Buerger, “The Tridymite Problem,”Science, 95, 20–21 (1942). (Crys Structure, Meta Phases; Experimental)

    Article  Google Scholar 

  27. J.S. Lukesh and M.J. Buerger, “The Tridymite Problem,”Am. Miner., 27, 143–144 (1942). (Crys Structure, Meta Phases; Experimental)

    Google Scholar 

  28. J.S. Lukesh, “The Size of the Unit Cell and the Coefficient of Expansion of High-Cristobalite,”Am. Miner., 27, 226 (1942). (Crys Structure; Experimental)

    Google Scholar 

  29. A.H. Jay, “The X-Ray Pattern of Low-Temperature Cristobalite,”Miner. Mag., 24, 54–55 (1944). (Crys Structure; Experimental)

    Article  Google Scholar 

  30. G. Grube and H. Speidel, “Knowledge of Silicon Monoxide. Communication I. The Forms of Silicon Monoxide Deposited from the Gas Phase,”Z. Elektrochem., 53(6), 339–340 (1949) in German. (Meta Phases; Experimental)

    Google Scholar 

  31. M.S. Beletskii and M.B. Rapaport, “Investigation of the Lower Oxide of Silicon SiO,”Dokl. Akad. Nauk SSSR, 72(4), 699–701 (1950) in Russian. (Crys Structure; Experimental)

    Google Scholar 

  32. G. Hass, “Preparation, Structure, and Applications of Thin Films of Silicon Monoxide and Titanium Dioxide,”J. Am. Ceram. Soc., 33(12), 353–360 (1950). (Meta Phases; Experimental)

    Article  Google Scholar 

  33. H.S. Yoder, Jr., “High-Low Quartz Inversion up to 10,000 Bars,”Trans. Am. Geophys. Union, 31(6), 827–835 (1950). (Equi Diagram; Experimental)

    Google Scholar 

  34. G.H. Wagner and A.N. Pines, “Silicon Oxyhydride,”Ind. Eng. Chem., 44(2), 321–326 (1959). (Meta Phases, Crys Structure; Experimental)

    Article  Google Scholar 

  35. L. Coes, Jr., “A New Dense Crystalline Silica,”Science, 118, 131–132 (1953). (MetaPhases; Experimental)

    Article  ADS  Google Scholar 

  36. M. Hoch and H.L. Johnston, “Formation, Stability, and Crystal Structure of Solid Silicon Monoxide,”J. Am. Chem. Soc., 75, 5224–5225 (1953). (Crys Structure; Experimental)

    Article  Google Scholar 

  37. F.C. Kracek, “Thermochemical Properties of Minerals,”Carnegie Inst. Washington, Geophys. Lab. Ann. Rept., 1952-53, 69–74 (1953). (Thermo; Compilation)

    Google Scholar 

  38. H.E. Swanson and E. Tatge,Standard X-Ray Diffraction Powder Patterns, Nat. Bur. Stand. (U.S.), Circular 539,1, 39–43 (1953). (Crys Structure; Experimental)

    Google Scholar 

  39. J.B. Austin, “The Coefficient of Linear Thermal Expansion of Tridymite,”J. Am. Chem. Soc., 76, 6019–6020 (1954). (Meta Phases; Experimental)

    Article  Google Scholar 

  40. L. Brewer and R.K. Edwards, “The Stability of SiO Solid and Gas,”J. Phys. Chem., 58, 351–358 (1954). (Equi Diagram, Meta Phases, Thermo; Experimental)

    Article  Google Scholar 

  41. O.W. Flörke, “The Causes of the High-Low Transformation Anomalies of Tridymite and Cristobalite,”Naturwissenschaften, 41(16), 371–372 (1954) in German. (Equi Diagram, Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  42. H.E. Swanson, R.K. Fuyat, and G.M. Ugrinic,Standard X-Ray Diffraction Powder Patterns, Natl. Bur. Stand. (U.S.), Circular 539,3, 24–26 (1954). (Crys Structure; Experimental)

    Google Scholar 

  43. A. Weiss and A. Weiss, “On a New Silicon Dioxide Modification with Fibrous Structure and Chain Molecules,”Naturwissenschaften, 41, 12 (1954) in German. (Crys Structure, Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  44. A. Weiss and A. Weiss, “Knowledge of the Fibrous Modification of Silicon Dioxide,”Z. Anorg. Allg. Chem., 276, 95–112 (1954) in German. (Meta Phases; Experimental)

    Article  Google Scholar 

  45. O.W Flörke, “Structural Anomalies in Tridymite and Cristobalite,”Ber. Deut. Keram. Ges., 32(12), 369–381 (1955) in German. (Crys Structure, Equi Diagram, Meta Phases; Review)

    Google Scholar 

  46. S. Geller and C.D. Thurmond, “On the Question of the Existence of a Crystalline SiO,”J. Am. Chem. Soc., 77, 5285–5287 (1955). (Crys Structure; Experimental)

    Article  Google Scholar 

  47. R.F. Porter, W.A. Chupka, and M.G. Inghram, “Mass Spectrometric Study of Gaseous Species in the Si-SiO2 System,”J. Chem. Phys., 23, 216–217 (1955). (Equi Diagram, Thermo; Experimental)

    Article  Google Scholar 

  48. L.S. Ramsdell, “The Crystallography of ‘Coesite’,”Am. Miner., 40, 975–982 (1955). (Crys Structure; Experimental)

    Google Scholar 

  49. R.B. Sosman, “New and Old Phases of Silica,”Trans. J. Br. Ceram. Soc., 54, 655–670 (1955). (Crys Structure, Equi Diagram; Review; #)

    Google Scholar 

  50. O.W. Flörke, “On the Single-Component System SiO2,”Naturwissenschaften, 43, 419–420 (1956) in German. (Equi Diagram, Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  51. D.T. Griggs and G.C. Kennedy, “A Simple Apparatus for High Temperatures and Pressures,”Am. J. Sci., 254, 722–735 (1956). (MetaPhases; Experimental)

    Article  Google Scholar 

  52. H.T. Hall, “Chemistry at High Temperature and High Pressure,”High Temperature—A Tool for the Future, Stanford Res. Inst., Menlo Park, CA, 161–166 (1956). (Meta Phases; Experimental)

    Google Scholar 

  53. W. Johnson and K.W. Andrews, “An X-Ray Study of the Inversion and Thermal Expansion of Cristobalite,”Trans. J. Br. Ceram. Soc., 55, 227–236 (1956). (Crys Structure; Experimental)

    Google Scholar 

  54. G.C.F. MacDonald, “Quartz-Coesite Stability Relations at High Temperature and Pressures,”Am. J. Sci., 254, 713–721 (1956). (Meta Phases; Experimental)

    Article  Google Scholar 

  55. E. Wiberg and W. Simmler, “On a Micaceous Form of Silicon Oxyhydride [HSiO1.5]x,”Z. Anorg. Allg. Chem., 283, 401–413 (1956) in German. (Meta Phases; Experimental)

    Article  Google Scholar 

  56. W.A. Bassett and D.M. Lapham, “A Thermal Increment Diffractometer,”Am. Miner., 42, 548–555 (1957). (Crys Structure; Experimental)

    Google Scholar 

  57. L. Brewer and F.T. Greene, “Differential Thermal Analysis of the Si-SiO2 System,”J. Phys. Chem. Solids, 2, 286–288 (1957). (Equi Diagram, Meta Phases, Thermo; Experimental)

    Article  ADS  Google Scholar 

  58. W. Eitel, “Structural Anomalies in Tridymite and Cristobalite,”Bull. Am. Ceram. Soc., 36(4), 142–148 (1957). (Crys Structure, Equi Diagram, Meta Phases; Review)

    Google Scholar 

  59. O.W. Flörke, “On the X-Ray Diffraction Analysis of Minerals and the Thermal Expansion of Cristobalite and Tridymite and on the Structure of Silica Bodies,”Ber. Deut. Keram. Ges., 34, 343–353 (1957) in German. (Equi Diagram, Crys Structure, Meta Phases; Review)

    Google Scholar 

  60. W. Kaiser and P.H. Keck, “Oxygen Content of Silicon Single Crystals,J.Appl. Phys., 28(8), 882–887 (1957). (Equi Diagram, Crys Structure; Experimental)

    Article  ADS  Google Scholar 

  61. T. Tokuda, “X-Ray Spacings of Synthetic Cristobalites Especially in Back Reflection Region,”J. Chem. Soc. Jpn., 79(9), 1063–1067 (1957). (Crys Structure; Experimental)

    Google Scholar 

  62. A. J. Cohen and G.G. Summer, “Relationships Among Impurity Contents, Color Centers, and Lattice Constants in Quartz,”Am. Miner., 43, 58–68 (1959). (Crys Structure; Experimental)

    Google Scholar 

  63. E. Cremer, T. Kraus, and E. Ritter, “On the Dependence of the Absorption Capability of Thin Silicon Oxide Layers on the Degree of Oxidation,”Z. Elektrochem., 62(9), 939–941 (1958) in German. (Meta Phases; Experimental)

    Google Scholar 

  64. V.G. Hill and R. Roy, “Silica Structure Studies. VI. On Tridymites,”Trans. J. Br. Ceram. Soc., 57, 496–510 (1958). (Equi Diagram, Meta Phases, Crys Structure; Experimental)

    Google Scholar 

  65. V.G. Hill and R. Roy, “Silica Structure Studies. V. The Variable Inversion of Cristobalite,”J. Am. Ceram. Soc., 41(2), 532–537 (1958). (Equi Diagram, Meta Phases, Crys Structure; Experimental)

    Article  Google Scholar 

  66. W. Kaiser and J. Breslin, “Factors Determining the Oxygen Content of Liquid Silicon at Its Melting Point,”J. Appl. Phys., 29(9), 1292–1294 (1958). (Equi Diagram; Experimental)

    Article  ADS  Google Scholar 

  67. A. de Vries, “Determination of the Absolute Configuration of α-Quartz,”Nature, 181, 1193 (1958). (Crys Structure; Experimental)

    Article  ADS  Google Scholar 

  68. R.F. Walker, S. Zerfoss, S.F. Holley, and L.J. Gross, “Temperature of the Inversion of Cristobalite,”J. Res. Natl. Bur. Stand., 61(4), 251–261 (1958). (Equi Diagram, Meta Phases; Experimental)

    Google Scholar 

  69. N.A. Afanas’eva, I.E. Kamentsev, and V.A. Frank-Kamenetskii, “Variation of the Elementary Cell Parameters of Quartz of Different Sources,”Kristallografiya, 4(3), 381–385 (1959) in Russian; TR:Sov. Phys. Crystallogr., 4(3), 354–357 (1960). (Crys Structure; Experimental)

    Google Scholar 

  70. F.R. Boyd and J.L. England, “Quartz-Coesite Transition,”Cargnegie Inst. Washington, Year Book 58, 87–88 (1959). (Meta Phases; Experimental)

    Google Scholar 

  71. E. Cremer, A. Faessler, and H. Krämer, “Detection of the Silicon Oxide Si2O3,”Naturwissenschaften, 46(11), 377 (1959) in German. (Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  72. F. Dachille and R. Roy, “High-Pressure Region of the Silica Isotypes,”Z. Kristallogr., 111, 451–461 (1959). (Crys Structure, Meta Phases; Experimental)

    Article  Google Scholar 

  73. A. Faessler and H. Krämer, “On the Existence of the Oxidation Stages Si2O, SiO and Si2O3 of Silicon,”Ann. Phys., 7, 4, 263–268 (1959) in German. (Meta Phases; Experimental)

    Article  Google Scholar 

  74. H.J. Hrostowski and R.H. Kaiser, “The Solubility of Oxygen in Silicon,”J. Phys. Chem. Solids, 9, 214–216 (1959). (Equi Diagram; Experimental)

    Article  ADS  Google Scholar 

  75. R.A. Logan and A.J. Peters, “Diffusion of Oxygen in Silicon,”J. Appl. Phys., 30(11), 1627–1630 (1959). (Equi Diagram; Experimental)

    Article  ADS  Google Scholar 

  76. A.L. Roberts, “Kinetics of the Transformation of Quartz,”Kinetics of High-Temperature Processes, W.D. Kingery, Ed., Technology Press, MIT and John Wiley, New York, 222–227 (1959). (Meta Phases; Review)

    Google Scholar 

  77. R.F. Walker, “The Anomalous Inversion of Cristobalite,”Kinetic of High-Temperature Processes, W.D. Kingery, Ed., Technology Press, MIT and John Wiley, New York, 228–238 (1959). (Equi Diagram, Meta Phases; Review)

    Google Scholar 

  78. T. Zoltai and M.J. Buerger, “The Crystal Structure of Coesite, The Dense, High-Pressure Form of Silica,”Z. Kristallogr., 111, 129–141 (1959). (Crys Structure; Experimental)

    Article  Google Scholar 

  79. N.Kh. Abrikosov, L. Tszun’-u, Yu.M. Shashkov, “The Solubility of Oxygen in Liquid Silicon,”Izv. Akad. Nauk SSSR, Otd. Tekhn. Nauk, Met. Toplivo, (6), 65–68 (1960) in Russian; TR:Russ. Metall. Fuels, (6) 71–76 (1960). (Equi Diagram; Experimental)

  80. F.R. Boyd and J.L. England, “The Quartz-Coesite Transition,”J. Geophys. Res., 65(2), 749–756 (1960). (Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  81. V.A. Frank-Kamenetskii, “Manifestation of Microisomorphism in Quartz,”Kristallografiya, 5(4), 650–654 (1960) in Russian; TR:Sov. Phys. Crystallogr.,5(4), 622–626 (1961). (Crys Structure; Experimental)

    Google Scholar 

  82. G.H.S. Jones and A.C.H. Hallett, “The Specific Heat of Crystalline Quartz Between 2°K and 4 °K,”Can. J. Phys., 38, 696–700 (1960). (Thermo; Experimental)

    ADS  Google Scholar 

  83. W.L. de Keyser and R. Cyprès, “Formation of Tridymite. Combined Action of Lime and Alkali Oxides,”Silicates Inds., 25, 109–137 (1960) in French. (Equi Diagram; Experimental)

    Google Scholar 

  84. H.L. Schick, “AThermodynamic Analysis of the High-Temperature Vaporization Properties of Silica,”Chem. Rev., 60, 331–362 (1960). (Equi Diagram, Thermo; Review)

    Article  Google Scholar 

  85. H.E. Swanson, M.I. Cook, E.H. Evans, and J.H. de-Groot,Standard X-Ray Diffraction Powder Patterns, Natl. Bur. Stand. (U.S.) Circular 539,10, 48–50 (1960). (Crys Structure; Experimental)

    Google Scholar 

  86. C.D. Thurmond, unpublished, cited by F.A. Trumbore, “Solid Solubilities of Impurity Elements in Germanium and Silicon,”Bell. Tel. Tech. J., 59, 205–233 (1960). (Equi Diagram; Review)

    Google Scholar 

  87. J. Chipman, “The Free Energy of Silica,”J. Am. Chem. Soc., 83, 1762–1763 (1961). (Thermo; Review)

    Article  Google Scholar 

  88. V.V. Dadape and J.L. Margrave, “Evidence for the Existence of Si2O23,” Abst. Sci. Papers, 18th Internat. Congr. Pure Appl. Chem., Montreal, Canada, 103–104 (1961). (Meta Phases, Crys Structure; Experimental)

  89. O.W. Flörke, “The Crystal Types of SiO2 and Their Transformation Behavior,”Ber. Deut. Keram. Gas., 38(3), 89–97 (1961) in German. (Equi Diagram, Meta Phases, Crys Structure; Review)

    Google Scholar 

  90. O.W. Floerke, “A Discussion of the Tridymite-Cristobalite Problem,”Silicates Ind., 26, 415–418 (1961). (Equi Diagram, Meta Phases; Review)

    Google Scholar 

  91. S.B. Holmquist, “Conversion of Quartz to Tridymite,”J. Amer. Ceram. Soc., 44, 82–86 (1961). (Equi Diagram, Meta Phases; Experimental)

    Article  Google Scholar 

  92. K.K. Kelley and E.G. King,Contribution to the Data on Theoretical Metallurgy XIV. Entropies or the Elements and Inorganic Compounds, Bulletin 592, U.S. Bur. Mines, 84, (1961). (Thermo; Compilation)

  93. G. Rohde and K.L. Weiner, “X-Ray Diffraction Investigations on the Sub-Oxides of Silicon,”Angew. Chem., 73(11), 410 (1961) in German. (Meta Phases; Experimental)

    Article  Google Scholar 

  94. S.M. Stishov and S.V. Popova, “A Dense Modification of Silica,”Geokhimiya, (10), 837–839 (1961) in Russian; TR:Geochem., 10, 923–926 (1961). (Crys Structure; Meta Phases; Experimental)

  95. H. Arnold, “The Structure of High Quartz,”Z. Kristallogr., 117, 467–469 (1962) in German. (Crys Structure; Experimental)

    Article  Google Scholar 

  96. E.C.T. Chao, J.J. Fahey, J. Littler, and E.J. Milton, “Stishovite, SiO2, A Very High Pressure New Mineral from Meteor Crater, Arizona,”J. Geophys. Res., 67(1), 419–421 (1962). (Crys Structure, Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  97. A.S. Cooper, “Precise Lattice Constants of Germanium, Aluminum, Gallium Arsenide, Uranium, Sulfur, Quartz, and Sapphire,”Acta Crystallogr., 15, 578–582 (1962). (Crys Structure; Experimental)

    Article  Google Scholar 

  98. R. Cyprès, “The Polymorphic Transformations of Silica Under the Action of Mineralizers,”Bull. Soc. Fr. Ceram., 55, 71–88 (1962). (Equi Diagram, Meta Phases; Review)

    Google Scholar 

  99. W.D. Good, “The Heat of Formation of Silica,”J. Phys. Chem., 66, 380–381 (1962). (Thermo; Experimental)

    Article  Google Scholar 

  100. A.N. Khlarova, “X-Ray Data on the α-to β-Quartz Phase Transition,”Kristallografiya, 7(4), 568–575 (1962) in Russian; TR:Sov. Phys. Crystallogr., 7(4), 458–463 (1963). (Crys Structure; Experimental)

    Google Scholar 

  101. T.D. Laney, “Lattice Constants of Alpha-Quartz,”Texas J. Sci., 14, 406 (1962). (Crys Structure; Experimental)

    Google Scholar 

  102. E. Ritter, “Information of the SiO-and Si2O3-Phases in Thin Layers,”Optica Acta, 9(2), 197–202 (1962) in German. (Meta Phases; Experimental)

    ADS  MathSciNet  Google Scholar 

  103. C.B. Sclar, L.C. Garrison, and D.W. Schwartz, “Optical Crystallography of Coesite,”Am. Miner., 47, 1292–1302 (1962). (Crys Structure; Experimental)

    Google Scholar 

  104. S.M. Stishov and N.V. Belov, “The Crystalline Structure of A New Dense Modification of Silica SiO2,”Dokl. Akad. Nauk SSSR, 143(4), 951–954 (1962) in Russian. (Crys Structure; Experimental)

    Google Scholar 

  105. S.S. Wise, J.L. Margrave, H.M. Feder, and W.N. Hubbard, “The Heat of Formation of Silica and Silicon Tetrafluoride,”J. Phys. Chem., 66, 381 (1962). (Thermo; Experimental)

    Article  Google Scholar 

  106. M. Coenen, “On the High-Low-Transformation of Quartz,”Silicates Ind., 28, 147–156 (1963). (Crys Structure, Thermo; Experimental)

    Google Scholar 

  107. F. Dachille, R.J. Zeto, and R. Roy, “Coesite and Stishovite: Stepwise Reversal Transformations,”Science, 140, 991–993 (1963). (Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  108. R.H. Rein and J. Chipman, “The Free Energy of SiC from Its Solubility in Fe and from Gas-Solid Equilibria with SiO2, Graphite, and CO,”J. Phys. Chem., 67, 839–841 (1963). (Thermo; Experimental)

    Article  Google Scholar 

  109. L. Riechert and K.L. Weiner, “X-Ray Investigations of Non-Crystalline Structures in the System Si-O,”Acta Crystallogr., A, 16( Suppl.), 86 (1963). (Meta Phases, Crys Structure; Experimental)

    Google Scholar 

  110. M. Sato, “X-Ray Study of Tridymite. I. Tridymite M and Tridymite S,”Miner. J. (Tokyo), 4, 115–130 (1963);Chem. Abstr., 63, 2469a (1965). (Meta Phases; Experimental)

    Google Scholar 

  111. M. Sato, “X-Ray Study of Tridymite. II. Structure of Low Tridymite, Type M,”Miner. J. (Tokyo), 4, 131–146 (1963);Chem. Abstr., 63, 2469a (1965). (Crys Structure; Experimental)

    Google Scholar 

  112. M. Sato, “X-Ray Study of Tridymite. III. Unit Cell Dimensions and Phase Transition of Tridymite, Type S,”Miner. J. (Tokyo), 4, 215–225 (1963);Chem. Abstr., 63, 2469a (1965). (Crys Structure, Meta Phases; Experimental)

    Google Scholar 

  113. S.J. Schneider,Compilation of the Melting Points of the Metal Oxides, Natl. Bur. Stand. (U.S.) Monograph 68, 24–25 (1963). (Equi Diagram; Compilation)

  114. G.S. Smith and L.E. Alexander, “Refinement of the Atomic Parameters of α-Quartz,”Acta Crystallogr., 16, 462–471 (1963). (Crys Structure; Experimental)

    Article  Google Scholar 

  115. S.M. Stishov, “On the Equilibrium Line Between Coesite and the Rutile-Like Modification of Silica,”Dokl. Akad. Nauk SSSR 148(5), 1186–1188 (1963) in Russian. (Meta Phases; Experimental)

    Google Scholar 

  116. T. Takahashi, “Factors Influencing Pressures in Multi-Anvil Devices,”High-Pressure Measurement, A.A. Giardini and E.C. Lloyd, Ed., Butterworths, Washington, DC, 240–244 (1963), cited by [64Kit]. (Equi Diagram, Meta Phases; Experimental)

    Google Scholar 

  117. K. Yaskawa, “On the Phase Transition Between Quartz and Coesite,”Mem. Coll. Sci., Univ. Kyoto, B 30(2), 121–145 (1963). (MetaPhases; Experimental)

    Google Scholar 

  118. F.R. Boyd, “Geological Aspects of High-Pressure Research,”Science 145, 13–20 (1964). (Meta Phases, Pressure; Experimental)

    Article  ADS  Google Scholar 

  119. W. Hoffman and F. Laves, “On the ‘Polytypie’ and ‘Polytropie’ of Tridymite,”Naturwissenschaften, 51(14), 335 (1964) in German. (Crys Structure, Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  120. S. Kitahara and G.C. Kennedy, “The Quartz-Coesite Transition,”J. Geophys. Res., 69(24), 5395–5400 (1964). (Meta Phases, Thermo; Experimental)

    Article  ADS  Google Scholar 

  121. A.J. Majumdar, H.A. McKinstry and R. Roy, “Thermodynamic Parameters for the α-β Quartz and α-β Cristobalite Transitions,”J. Phys. Chem. Solids, 25, 1487–1489 (1964). (Equi Diagram, Thermo; Experimental)

    Article  ADS  Google Scholar 

  122. R. Roy and W.B. White, “Recent Data on High Temperature-High Pressure Phase Transformations,”High Temperature Technology, Butterworths, London, England, 235–253 (1964). (Meta Phases, Thermo; Review)

    Google Scholar 

  123. D.M. Roy and R. Roy, “Tridymite-Cristobalite Relations and Stable Solid Solutions,”Am. Miner., 49, 952–962 (1964). (Equi Diagram, Meta Phases; Experimental)

    Google Scholar 

  124. Y.N. Ryabinin, “The Influence of Pressure on Some Properties of the Substance,”Tectonophys., 1(3), 227–232 (1964). (Meta Phases; Experimental)

    Article  Google Scholar 

  125. Y. Seki and G.C. Kennedy, “The Breakdown of Potassium Feldspar, KAlSi3O8 at High Temperatures and High Pressures,”Am. Miner., 49, 1688–1706 (1964). (Crys Structure, Meta Phases; Experimental)

    Google Scholar 

  126. E.W. White and R. Roy, “Silicon Valence in SiO Films Studied by X-Ray Emission,”Solid State Commun., 2(6), 151–152 (1964). (Equi Diagram; Experimental)

    Article  ADS  Google Scholar 

  127. P.M. Bell, G. Simmons, and J.F. Hays, “Shearing Squeezer Experiments with Quartz and Coesite,”Carnegie Inst. Washington, Year Book 64, 141–144 (1965). (Meta Phases; Experimental)

    Google Scholar 

  128. P.E. Blackburn, “Thermodynamics of Condensed and Vapor Phases in the Binary and Ternary Systemsof Be-B-O, Al-B-O, Si-O, Al-Be-O, and Al-B-F,” Authur D. Little, Inc., NASA Report AD618523 (1965). (Equi Diagram, Thermo; Experimental)

  129. W.A. Dollase, “Reinvestigation of the Structure of Low Cristobalite,”Z. Kristallogr., 121, 369–377 (1965). (Crys Structure; Experimental)

    Article  Google Scholar 

  130. K. Kohler and G. Schneidner, “Investigations on the Thermal Expansion of Quartz in the Region of the High-Low Transformation,”Radex-Rundschau, (4) 584–594 (1965). (Equi Diagram, Crys Structure; Experimental)

  131. I.A. Ostrovsky, “Experimental Fixation of the Position of the Coesite-Stishovite Equilibrium Curve,”Izv. Akad. Nauk SSSR, Geol., (10), 132–135 (1965) in Russian; cited by [76Yag]. (Meta Phases; Experimental)

  132. R.B. Sosman,The Phases of Silica, Rutgers University Press, New Brunswick, NJ, 38,47–53, 69, 72, 80–81, 94–95, 105, 113, 271, 304–307 (1965). (Equi Diagram, Meta Phases, Crys Structure; Review)

    Google Scholar 

  133. N.A. Vasyutinskii, V.I. Mil’ko, and Yu.I. Rys’eva, “Crystal Lattice of Silicon Oxide Obtained in a Plasma Reactor,”Izv. Akad. Nauk SSSR, Neorg. Mater., 1(6), 835–837 (1965) in Russian; TR:Inorg. Mater., 1(6), 768–770 (1965). (Crys Structure; Experimental)

    Google Scholar 

  134. F. Aumento, “Stability, Lattice Parameters, and Thermal Expansion of β-Cristobalite,”Am. Miner., 51, 1167–1176 (1966). (Crys Structure; Experimental)

    Google Scholar 

  135. C. Berger, L. Eyraud, M. Richard, and R. Rivière, “X-Ray Crystallographic Study of the Variation of Volume for a Few Substances Undergoing Solid-Solid Transformations,”M’em. Soc. Chim. Fr., 628–633 (1966). (Crys Structure; Experimental)

  136. F.R. Boyd, P.M. Bell, J.L. England, and M.C. Gilbert, “Pressure Measurement in Single-Stage Apparatus,”Carnegie Inst. Washington, Year Book 65, 410–414 (1966). (Meta Phases; Experimental)

    Google Scholar 

  137. A.S. Bystrikov, “The Nature of the Low-High Transformation in Quartz,”Geokhim., (2), 223–229 (1966) in Russian; TR:Geochem. Internat., 3, 138–145 (1966). (Equi Diagram; Experimental)

  138. T.H. Green, A.E. Ringwood, and A. Major, “Friction Effects and Pressure Calibration in a Piston-Cylinder Apparatus at High Pressure and Temperature,”J. Geophys. Res., 71, 3589–3594 (1966); cited by [72Aki]. (Meta Phases; Experimental)

    ADS  Google Scholar 

  139. E. Okamoto and Y. Hishinuma, “Properties of Evaporated Thin Films of Si2O3,”Trans. 3rd Inst. Vac. Congr., 2(1), 49–56 (1966);Chem. Abstr., 67, 77322x (1967). (Crys Structure; Experimental)

    Google Scholar 

  140. H. Strunz,Mineralogische Tabellen (4th Ed.), Akadem. Verlagsgesellschaft, Leipzig, 47–49 (1966). (Crys Structure; Review)

    Google Scholar 

  141. Y. Wang, “Rock-Forming Minerals from Taiwan. III. Low-Temperature Cristobalite from Altered Andesites, Tatun Volcanic Region,”Proc. Geol.Soc. Chin., 10, 125–129 (1966) in Chinese;Chem. Abstr., 68, 14748r (1968). (Crys Structure; Experimental)

    Google Scholar 

  142. L.H. Cohen and W. Klement, “High-Low Quartz Inversion: Determination to 35 Kilobars,”J. Geophys. Res., 72, 4245–4251 (1967). (Equi Diagram; Experimental)

    ADS  Google Scholar 

  143. W.A. Dollase, “The Crystal Structure at 220 °C of Orthorhombic High Tridymite from the Steinback Meteorite,”Acta Crystallogr., 23, 617–623 (1967). (Crys Structure; Experimental)

    Article  Google Scholar 

  144. W. Hoffmann, “Lattice Constants and Space Group of Tridymite at 20 °C,”Naturwissenschaften, 54, 114 (1967) in German. (Crys Structure; Experimental)

    Article  ADS  Google Scholar 

  145. J.L. Holm, O.J. Kleppa, and E.F. Westrum, Jr., “Thermodynamics of Polymorphic Transformation in Silica. Thermal Properties from 5 to 1070 °K and Pressure-Temperature Stability Fields for Coesite and Stishovite,”Geochim. Cosmochim. Acta, 31, 2289–2307 (1967). (Meta Phases, Thermo; Experimental)

    Article  ADS  Google Scholar 

  146. Y. Ida, Y. Syono, and S. Akimoto, “Effect of Pressure on the Lattice Parameters of Stishovite,”Earth Planet. Sci. Lett., 3, 216–218 (1967). (Crys Structure; Experimental)

    Article  ADS  Google Scholar 

  147. O. Kubaschewski, E.L. Evans, and C.B. Alcock,Metallurgical Thermochemistry, 4th Ed., Pergamon Press, New York, 266–273 (1967). (Thermo; Review)

    Google Scholar 

  148. I.A. Ostrovsky, “On Some Sources of Error in Phase Equilibria Investigations at Ultra High Pressure. 2. Phase Diagram of Silica,”Geol. J., 5, 321–328 (1967); cited by [76Yag]. (Meta Phases; Experimental)

    Article  Google Scholar 

  149. R.A. Robie, P.M. Bethkie, and K.M. Beardsley,Selected X-Ray Crystallographic Data. Molar Volumes and Densities of Minerals and Related Substances, Geol. Surv. Bull. 1248, U.S. Govt. Printing Office, Washington, DC (1967). (Crys Structure; Compilation)

  150. A.L. Boettcher and P.J. Wyllie, “The Quartz-Coesite Transition Measured in the Presence of a Silicate Liquid and Calibration of Piston-Cylinder Apparatus,”Contrib. Miner. Petrol., 17, 224–232 (1968), cited by [80Mir]. (Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  151. R.E. Johnson and A. Muan, “Phase Diagrams for the Systems Si-O and Cr-O,”J. Am. Ceram. Soc., 51(8), 430–433 (1968).(Equi Diagram, Meta Phases; Experimental; #)

    Article  Google Scholar 

  152. T.I. Litvinova, V.A. Kravchenko, V.P. Barzakovskii, and T.F. Raichenko, “Composition and Certain Properties of the Lower Oxides of Silicon,”Izv. Akad. Nauk SSSR, Neorg. Mater., 4(7), 1071–1075 (1968); TR:Inorg. Mater., 4, 940–944 (1968). (Meta Phases; Experimental)

    Google Scholar 

  153. S.M. Shapiro and H.Z. Cummins, “Critical Opalescence in Quartz,”Phys. Rev. Lett., 21, 1578–1582 (1968). (Equi Diagram; Experimental)

    Article  ADS  Google Scholar 

  154. Y. Syono and S. Akimoto, “High Pressure Synthesis of Fluorite-Type PbO2,”Mat. Res. Bull, 3, 153–158 (1968). (Meta Phases; Experimental)

    Article  Google Scholar 

  155. D.D. Wagman, W.H. Evans, V.B. Parker, I. Halow, S.M. Baily, and R.H. Schumm,Selected Values of Chemical Thermodynamic Properties. Tables for the First Thirty-Four Elements in the Standard Order of Arrangement, Natl. Bur. Stand. (U.S.) Tech. Note 270–3, U.S. Govt. Printing Office, 171–172 (1968). (Thermo; Compilation)

  156. S. Akimoto and Y. Syono, “Coesite-Stishovite Transition,”J. Geophys. Res., 74, 1653–1659 (1974). (Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  157. T. Araki and T. Zoltai, “Refinement of the Coesite Structure,”Z. Kristallogr., 129, 381–387 (1969).(Crys Structure; Experimental)

    Article  Google Scholar 

  158. H.P. Kirchner, “Thermal Expansion Anisotropy of Oxides and Oxide Solid Solutions,”J. Am. Ceram. Soc., 52(7), 379–386 (1969). (Crys Structure; Experimental)

    Article  Google Scholar 

  159. I.A. Novokhatsky and B.F. Belov, “Concentration Dependence of the Oxygen Solubility in Metals,”Izv. Akad. Nauk SSSR, Met., (3), 15–26 (1969) in Russian; TR:Russ. Met., (3), 13–24 (1969). (Equi Diagram, Thermo; Experimental)

  160. D. Stöffler and J. Arndt, “Coesite and Stishovite. High-Pressure Modification of Silicon Dioxide,”Naturwissenschaften, 56, 100–109 (1969) in German. (Crys Structure; Review)

    Article  ADS  Google Scholar 

  161. F.E. Wagstaff, “Crystallization and Melting Kinetics of Cristobalite,”J. Am. Ceram. Soc., 52(12), 650–654 (1969). (Equi Diagram; Experimental)

    Article  Google Scholar 

  162. V.T. Höchli, “Ultrasonic Investigation of the First-Order α-β Phase Transition in Quartz,”Solid State Commun., 8, 1487–1490 (1970). (Equi Diagram; Experimental)

    Article  ADS  Google Scholar 

  163. A.R. Bean and R.C. Newman, “The Solubility of Carbon in Pulled Silicon Crystals,”J. Phys. Chem. Solids, 32, 1211–1219 (1971). (Equi Diagram, Thermo; Experimental)

    Article  ADS  Google Scholar 

  164. O.W. Flörke and M. Müller-Vonmoos, “Displacive Low-High Transformations of Tridymite,”Z. Kristallogr., 133, 193–202 (1971) in German. (Crys Structure; Meta Phases; Experimental)

    Article  Google Scholar 

  165. W. Hoffmann, unpublished, cited by [Landol t] as [71Hof]. (Crys Structure, Meta Phases; Experimental)

  166. R. Roy and R.H. Frushour, “Reexamination of the Quartz-Coesite Transition in Anvil Apparatus,”J. Am. Ceram. Soc., 54(11), 589–590 (1971). (Meta Phases; Experimental)

    Article  Google Scholar 

  167. D.R. Stull and H. Prophet,JANAF Thermochemical Tables, 2nd Ed., NSRDS-NBS 37, U.S. Govt. Printing Office, Washington, DC (1971). (Equi Diagram, Thermo; Compilation)

    Google Scholar 

  168. S. Akimoto, “The System MgO-FeO-SiO2 at High Pressures and Temperatures—Phase Equilibria and Elastic Properties,”Tectonophysics, 3(1–4), 161–187 (1972). (Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  169. R.A. Kushner, “Oxygen Diffusion in Silicon as Measured by Charged Particle Activation Analysis,”J. Electrochem. Soc., 119(8), 239C (1972). (Equi Diagram; Experimental)

    Google Scholar 

  170. S. Naka, S. Ito, and M. Inagaki, “Effect of Shear on the Quartz-Coesite Transition,”J. Am. Ceram. Soc., 55(6), 323–324 (1972). (Meta Phases; Experimental)

    Article  Google Scholar 

  171. J. A. Yasaitis and R. Kaplow, “Structure of Amorphous Silicon Monoxide,”J. Appl. Phys., 43(3), 995–1000 (1972). (Crys Structure; Experimental)

    Article  ADS  Google Scholar 

  172. V.N. German, M.A. Podurets, and R.F. Trunin, “Synthesis of a High-Density Phase of Silicon Dioxide in Shock Waves,”Zh. Eksp. Teor. Fiz., 64, 205–206 (1973) in Russian;TR:Sov. Phys. JETP,37, 107–108(1973). (Meta Phases; Experimental)

    Google Scholar 

  173. Y. Takano and M. Maki, “Diffusion of Oxygen in Silicon,”Semiconductor Silicon, Proc. 2nd Int. Symp. Silicon Mater. Sci. Technol., H.R. Huff, Ed., Electrochem. Soc., Princeton, NJ, 469–481 (1973). (Equi Diagram, Crys Structure; Experimental)

  174. Y. Yatsurugi, N. Akiyama, Y. Endo, and T. Nozaki, “Concentration, Solubility, and Equilibrium Distribution Coefficient of Nitrogen and Oxygen in Semiconductor Silicon,”J. Electrochem. Soc., 120(7), 975–979 (1973). (Equi Diagram, Meta Phases; Experimental)

    Article  Google Scholar 

  175. K.F. Zmbov, L.L. Ames, and J.L. Margrave, “A Mass Spectrometric Study of the Vapor Species over Silicon and Silicon Oxides,”High Temp. Sci., 5, 235–240 (1973). (Equi Diagram, Thermo; Experimental)

    Google Scholar 

  176. R.J Ackerman and C.A. Sorrell, “Thermal Expansion and the High-Low Transformation in Quartz. I. High-Temperature X-Ray Studies,”J. Appl. Crystallogr., 7, 461–467 (1974). (Crys Structure; Experimental)

    Article  Google Scholar 

  177. R. Böhler and J. Arndt, “Direct Determination of the Quartz-Coesite Transition by In Situ X-Ray Measurements,”Contrib. Miner. Petrol., 48, 149–152 (1974). (Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  178. O. Kubaschewski and T.G. Chart, “Silicon Monoxide Pressure due to the Reaction Between Solid Silicon and Silica,”J. Chem. Thermodyn., 6, 467–476 (1974). (Thermo; Experimental)

    Google Scholar 

  179. J. White, “Refractories Research. IV Thermodynamic Stability of Oxide Refractories,”J. Aust. Ceram. Soc., 10(1), 1–4 (1974). (Meta Phases, Thermo; Review)

    Google Scholar 

  180. L.H. Cohen and W. Klement, Jr., “Differential Thermal Analysis Investigation of the High-Low Cristobalite Inversion under Hydrostatic Pressure to 7 Kbar,”J. Am. Ceram. Soc., 58(5-6), 206–208 (1975). (Equi Diagram, Meta Phases; Experimental)

    Article  Google Scholar 

  181. V.N. German, N.N. Orlova, L.A. Tarasova, and R.F. Trunin, “Synthesis of the Orthorhombic Phase of SiO2 in Dynamic Compression,”Izv.Akad. Nauk USSR, Fiz. Zem., (7), 50–56 (1975) in Russian; TR:Izv. Akad. Sci. USSR, Phys. Solid Earth, 11, 431–434 (1975). (Meta Phases; Experimental)

  182. Yu.V Malov and V.E. Sonyushkin, “Direct Electron-Microscopic Investigation of the α-β Transition Process in Quartz,”Kristallografiya, 20(5), 1054–1055 (1975) in Russian; TR:Sov. Phys. Crystallogr., 20(5), 644–645 (1975). (Equi Diagram, Crys Structure; Experimental)

    Google Scholar 

  183. A.F. Wright and A.J. Leadbetter, “The Structures of the β-Cristobalite Phases of SiO2 and A1PO4,”Philos Mag., 8, 31, 1391–1401 (1975). (Crys Structure; Experimental)

    Article  ADS  Google Scholar 

  184. W.A. Dollase and W.H. Baur, “The Superstructure of Meteoritic Low Tridymite Solved by Computer Simulation,”Am. Miner., 61, 971–978 (1976). (Crys Structure, Meta Phases; Experimental)

    Google Scholar 

  185. K. Kato and A. Nukui, “The Crystal Structure of Monoclinic Low Tridymite,”Acta Crystallogr. B, 32, 2486–2491 (1976) in German. (Crys Structure; Experimental)

    Article  Google Scholar 

  186. G. van Tendeloo, J. van Landuyt, and S. Amelinckx, “The α -β Phase Transition in Quartz and AlPO4 as Studied by Electron Microscopy and Diffraction,”Phys. Status. Solidi (a), 33, 723–735 (1976). (Equi Diagram, Crys Structure; Experimental)

    Article  ADS  Google Scholar 

  187. T. Yagi and S.-I. Akimoto, “Direct Determination of Coesite-Stishovite Transition by In-Situ X-Ray Measurements,”Techonophys., 35(1–3), 259–270 (1976). (Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  188. S. Akimoto, T Yagi, and K. Inoue, “High TemperaturePressure Phase Boundaries in Silicate Systems Using In Situ X-Ray Diffraction,”High-Pressure Research: Applications in Geophysics, M.H. Manghnani and S.-I. Akimoto, Ed., Academic Press, New York, 585–602 (1977). (Meta Phases; Experimental)

    Google Scholar 

  189. W.H. Baur, “Silicon-Oxygen Bond Lengths, Bridging Angles Si-O-Si and Synthetic Low Tridymite,”Acta Crystallogr. B, 33, 2615–2619 (1977). (Crys Structure; Experimental)

    Article  Google Scholar 

  190. G. Dolino and J.P Bachheimer, “Fundamental and Second-Harmonic Light Scattering by the α-β Coexistence State of Quartz,”Phys. Status Solidi (a), 41, 673–677 (1977). (Crys Structure; Experimental)

    Article  ADS  Google Scholar 

  191. G.V. Gibbs, C.T. Prewitt, and K.J. Baldwin, “AStudy of the Structural Chemistry of Coesite,”Z. Kristallogr., 145, 108–123 (1977). (Crys Structure; Experimental)

    Article  Google Scholar 

  192. K. Suito, “Phase Relations of Pure Mg2SiO4 up to 200 Kilobars,”High Pressure Research: Applications in Geophysics, M.H. Manghnani and S. Akimoto, Ed., Academic Press, New York, 255–266 (1977). (Meta Phases; Experimental)

    Google Scholar 

  193. K. Tempelhoff and F. Speigelberg, “Precipitation of Oxygen in Dislocation-Free Silicon,”Semiconductor Silicon 1977, Proc. 3rd Int. Symp. on Silicon Mater. Sci. Technol., H.R. Huff and E. Sirtl, Ed., Proc. Vol. 77–2, Electrochem. Soc., Princeton, NJ, 585–595 (1977). (Equi Diagram; Experimental)

    Google Scholar 

  194. T.A. Aslanyan and A.P Levanyuk, “Possibility of a Non-Commensurate Phase Near the α Transition Point Quartz,”Pis’ma Zh. Exsp. Teor. Fiz., 28(2), 76–79 (1978) in Russian; TR:JETP Lett., 28(2), 70–73 (1978). (Equi Diagram, Crys Structure, Meta Phases; Theoretical)

    ADS  Google Scholar 

  195. J.D. Cox, “CODATA Recommended Key Values for Thermodynamics, 1977. Report of the CODATA Task Group on Key Values of Thermodynamics, 1977,”J. Chem. Thermodyn., 10, 903–906 (1978). (Thermo; Compilation)

    Article  Google Scholar 

  196. L.-G. Liu, “A Fluorite Isotype of SnO2 and a New Modification of TiO2: Implications for the Earth’s Lower Mantle,”Science, 199, 422–425 (1978). (Crys Structure, Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  197. L.-G. Liu, W.A. Bassett, and J. Sharry, “New High-Pressure Modification of GeO2 and SiO2,”J. Geophys. Res., 83(B5), 2301–2305 (1978). (Crys Structure, Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  198. R.A. Robie, B.S. Hemingway, and J.R. Fisher,Thermodynamic Properties of Minerals and Related Substances at 298.15 K and 1 Bar (10 5 Pascals) Pressure and at Higher Temperatures, U.S. Geol. Survey Bull. 1452, U.S. Govt. Printing Office, Washington, 215–221 (1979). (Thermo; Compilation)

  199. J. Akella, “Quartz-Coesite Transition and the Comparative Friction Measurements in Piston-Cylinder Apparatus Using Talc-Alsimag-Glass (TAG) and NaCl High-Pressure Cells,”Neues Jahrb. Mineral. Monatsh., 214–224 (1979) in German. (Meta Phases; Experimental)

  200. T.A. Aslanyan and A.P. Levanyuk, “On the Possibility of the Incommensurate Phase near α Transition Point in Quartz,”Solid State Commun., 31, 547–550 (1979). (Equi Diagram, Crys Structure, Meta Phases; Theoretical)

    Article  ADS  Google Scholar 

  201. Y. Endo, Y. Yatsurugi, Y. Terai, and T. Nozaki, “Equilibrium of Carbon and Oxygen in Silicon with Carbon Monoxide in Ambient Atmosphere,”J. Electrochem. Soc., 220(8), 1422–1425 (1979). (Meta Phases, Thermo; Experimental)

    Article  Google Scholar 

  202. L.V. Gurvich, G.A. Bergman, I. V. Veits, V.A. Medvedev, G.A. Khachkuruzov, V.S. Yungman,Thermodynamic Properties of Individual Substances, 2, Izdatel’stvo Nauka, Moscow, 217–223 (1979) in Russian. (Equi Diagram, Thermo; Compilation)

  203. R.K. Iler,The Chemistry of Silica, John Wiley & Sons, New York (1979). (Equi Diagram, Meta Phases; Review)

    Google Scholar 

  204. A. Kirfel and G. Will, “ANewPhaseof Coesite SiO2,”Z. Kristallogr., 149, 315–326 (1979). (Crys Structure; Experimental)

    Article  Google Scholar 

  205. A. Nukui, A. Yamamoto, and H. Nakazawa, “Non-Integral Phase in Tridymite,”Modulated Structures-1979, AIP Conf. Proc. No. 53, J.M. Cowley, J.B. Cohen, M.B. Salamon, B.J. Wuensch, Ed., Am. Inst. Phys., New York, 327–329 (1979). (Crys Structure; Experimental)

    Google Scholar 

  206. K. Tempelhoff, F. Spiegelberg, R. Gleichmann, and D. Wrack, “Precipitation of Oxygen in Dislocation-Free Silicon,”Phys. Status Solidi (a), 56, 213–223 (1979). (Equi Diagram; Experimental)

    Article  ADS  Google Scholar 

  207. J.S. Weaver, D.W Chipman, and T. Takahashi, “Comparison Between Thermochemical and Phase Stability Data for the Quartz-Coesite-Stishovite Transformations,”Am. Miner., 64, 604–614 (1979). (Meta Phases; Review)

    ADS  Google Scholar 

  208. J.P. Bachheimer, “An Anomaly in the β-Phase Near the α-β Transition of Quartz,”J. Phys. Lett., 41, L–559-L–561 (1980). (Equi Diagram, Meta Phases; Experimental)

    Article  Google Scholar 

  209. J. Gass, H.H. Müller, H. StUssi, and S. Schweitzer, “Oxygen Diffusion in Silicon and the Influence of Different Dopants,”J. Appl. Phys., 51(4), 2030–2037 (1980). (Equi Diagram; Experimental)

    Article  ADS  Google Scholar 

  210. P.W Mirwald and H.-J. Massonne, “The Low-High Quartz and Quartz-Coesite Transition to 40 Kbar Between 600 and 1600 °C and Some Reconnaissance Data on the Effect of NaAlO2 Component on the Low Quartz-Coesite Transition,”J. Geophys. Res., 85(B12), 6983–6990 (1980). (Equi Diagram, Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  211. R.A. Craven, “Oxygen Precipitation in Czochralski Silicon,”Semiconductor Silicon-1981, Electrochem. Soc. Conf. Proc. 81–5, H.R. Huff, R.J. Kriegler, and Y. Takeishi, Ed., Electrochem. Soc., Pennington, NJ, 254–271 (1981). (Equi Diagram ; Experimental)

    Google Scholar 

  212. R.A. Craven and H.W. Korb, “Internal Gettering in Silicon,”Solid State Technol., 24(7), 55–61 (1981). (Equi Diagram; Experimental)

    Google Scholar 

  213. L. Levien and C.T. Prewitt, “High-Pressure Crystal Structure and Compressibility of Coesite,”Am. Miner., 66, 324–333 (1981). (Crys Structure; Experimental)

    Google Scholar 

  214. R. Boehler, “Adiabats of Quartz, Coesite, Olivine, and Magnesium Oxide to 50 Kbar and 1000 K and the Adiabatic Gradient in the Earth’s Mantle,”J. Geophys. Res., 87(B7), 5501–5506 (1982). (Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  215. S.R. Bohlen and A.L. Boettcher, “The Quartz-Coesite Transformation: A Precise Determination and the Effects of Other Components,”J. Geophys. Res., 87(B8), 7073–7078 (1982). (Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  216. G. Dolino and J.P. Bachheimer, “Effect of the α -β Transition on Mechanical Properties of Quartz,”Ferroelectrics, 43, 77–86 (1982). (Equi Diagram, Meta Phases; Experimental)

    Google Scholar 

  217. J. Hlav’ac, “Melting Temperatures of Refractory Oxides: Part I.”Pure Appl. Chem., 54(3), 682–688 (1982). (Equi Diagram; Review)

    Article  Google Scholar 

  218. J.C. Mikkelsen, “Excess Solubility of Oxygen in Silicon during Steam Oxidation,”Appl. Phys. Lett., 41(9), 871–873 (1982). (Equi Diagram; Experimental)

    Article  ADS  Google Scholar 

  219. L.B. Pankratz,Thermodynamic Properties of Elements and Oxides, Bulletin 672, U.S. Bur. Mines, 382–391 (1982). (EquiDiagram, Thermo; Compilation)

  220. P. Richet, Y. Bottinga, L. Denielou, J.P. Petitet, and C. Tequi, “Thermodynamic Properties of Quartz, Cristobalite and Amorphous SiO2: Drop Calorimetry Measurements Between 1000 and 1800 K and a Review from 0 to 2000 K,”Geochim. Cosmochim. Acta, 46, 2639–2658 (1982). (Equi Diagram, Thermo; Experimental)

    Article  ADS  Google Scholar 

  221. D.D. Wagman, W.H. Evans, V.B. Parker, R.H. Schumm, I. Halow, S.M. Bailey, K.L. Churney, and R.L. Nuttall, “The NBS Tables of Chemical Thermodynamic Properties,”J. Phys. Chem. Ref. Data, 11(Suppl.2), 2–211 (1982). (Thermo; Compilation)

    Google Scholar 

  222. G. Dolino and J.P. Bachheimer, “Observation of an Intermediate Phase Near the α- β Transition of Quartz by Heat Capacity and Neutron Scattering Measurements,”Solid State Commun., 45(3), 295–299 (1983). (Equi Diagram, Meta Phases, Thermo; Experimental)

    Article  ADS  Google Scholar 

  223. K. Gouhara, Y.H. Li, and N. Kato, “Studies on the Transition of Quartz by Means of In Situ X-Ray Topography,”J. Phys. Soc. Jpn., 52(11), 3821–3828 (1983). (Equi Diagram, Crys Structure, Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  224. N. Kato, “A Theoretical Consideration of the Intermediate Phase in α Transition of Quartz,”Proc. Indian Acad. Sci. Chem., 92(4–5), 429–435 (1983). (Equi Diagram, Meta Phases, Thermo; Theoretical)

    Google Scholar 

  225. W. Lin and D.W. Hill, “Oxygen Segregation in Czochralski Silicon Growth,”J. Appl. Phys., 54(2), 1082–1085 (1983).(Equi Diagram; Experimental)

    Article  ADS  Google Scholar 

  226. S. Sasaki, H.-K. Chen, C.T. Prewitt, and Y. Nakajima, “Re-Examination of ‘P21/a’Coesite,”Z. Kristallogr., 164, 67–77 (1983). (Crys Structure; Experimental)

    Article  Google Scholar 

  227. M. Akaogi and A. Navrotsky, “The Quartz-Coesite-Stishovite Transformations: New Calorimetric Measurements and Calculations of Phase Diagrams,”Phys. Earth Planet. Int., 36, 124–134 (1984). (Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  228. T.A. Aslanyan and A.P. Levanyuk, “Fluctuation Effects as a Cause for the Incommensurate Phase Formation,”Ferroelectrics, 53, 231–234 (1984). (Equi Diagram, Meta Phases, Thermo; Theoretical)

    Google Scholar 

  229. B. Berge, G. Dolino, and M. Vallade, “Incommensurate Phase of Quartz. II: Brillouin Scattering Studies,”J. Physique, 45, 715–724 (1984). (Equi Diagram, Meta Phases; Experimental)

    Article  Google Scholar 

  230. A. Bourret, J. Thibault-Desseaux, and D.N. Seidman, “Early Stages of Oxygen Segregation and Precipitation in Silicon,J. Appl.Phys., 55(4) 825–836 (1984) (Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  231. G. Dolino and J.P. Bachheimer, “Thermodynamical Behavior of Quartz around the Transition between α, Incommensurate and β Phases,”Phase Transformations in Solids, Mat. Res. Soc. Symp. Proc., 21, T. Tsakalakos, Ed., Elsevier, New York, 803–809 (1984). (Equi Diagram, Meta Phases, Thermo; Experimental)

    Google Scholar 

  232. G. Dolino, J.P. Bachheimer, B. Berge, and C.M.E. Zeyen, “Incommensurate Phase of Quartz: I. Elastic Neutron Scattering,”J. Physique, 45, 361–371 (1984).(Equi Diagram, Crys Structure, Meta Phases; Experimental)

    Article  Google Scholar 

  233. G. Dolino, J.P. Bachheimer, B. Berge, C.M.E. Zeyen, G. van Tendeloo, J. van Landuyt, and S. Amelinckx, “Incommensurate Phase of Quartz: III. Study of the Coexistence State Between the Incommensurate and the α-Phases by Neutron Scattering and Electron Microscopy,”J. Physique, 45, 901–912 (1984). (Equi Diagram, Crys Structure, Meta Phases; Experimental)

    Article  Google Scholar 

  234. A. Kirfel and G. Will, “Ending the ‘P21/a Coesite’ Discussion,”Z. Kristallogr., 167, 287–291 (1984). (Crys Structure; Experimental)

    Article  Google Scholar 

  235. F.M. Livingston, S. Messoloras, R.C. Newman, B.C. Pike, R.J. Stewart, M.J. Binns, W.P. Brown, and J.G. Wilkes, “An Infrared and Neutron Scattering Analysis of the Precipitation of Oxygen in Dislocation-Free Silicon,”J. Phys. C., Solid State Phys., 17, 6253–6276 (1984). (Equi Diagram, Thermo; Experimental)

    Article  ADS  Google Scholar 

  236. L.B. Pankratz, J.M. Stuve, and N.A. Gokcen,Thermodynamics Data for Mineral Technology, Bulletin 677, U.S. Bur. Mines, 285–286 (1984). (Equi Diagram, Thermo; Compilation)

  237. P. Bastie and G. Dolino, “X-Ray Diffraction Study of an Incommensurate Phase: Application to Quartz,”Phys. Rev. B, 31(5), 2857–2861 (1985). (Equi Diagram, Crys Structure, Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  238. K. Gouharaand, N. Kato, “The Intermediate Phase of Quartz. I,”J. Phys. Soc. Jpn., 54(5), 1868–1881 (1985). (Equi Diagram, Crys Structure, Meta Phases; Experimental)

    Article  ADS  Google Scholar 

  239. I. Hatta, M. Matsuura, H. Yao, and K. Gouhara, “True Behavior of Heat Capacity in α, Incommensurate and β Phases of Quartz,”Thermochim. Acta, 88(1), 143–148 (1985). (Equi Diagram, Meta Phases, Thermo; Experimental)

    Article  Google Scholar 

  240. K.R. Hoseini, R.A. Howald, and M.W. Scanion, “Thermodynamics of the Lambda Transition and the Equation of State of Quartz,”Am. Miner., 70, 782–793 (1985). (Equi Diagram, Meta Phases, Thermo; Review)

    Google Scholar 

  241. Y. Itoh and T. Nozaki, “Solubility and Diffusion Coefficient of Oxygen in Silicon,”Jpn. J. Appl. Phys., 24(3), 279–284 (1985). (Equi Diagram, Meta Phases, Crys Structure, Thermo; Experimental)

    Article  ADS  Google Scholar 

  242. E.K. Kazenas, G.N. Zviadadze, and M.A. Bol’skikh, “Thermodynamics of Sublimation and Dissociation Processes and Gas-Phase Reactions in Vapors over Silicon Dioxide,”Izv. Akad. Nauk SSSR, Met., (1), 46–48 (1985); TR:Russ. Metall., (1), 44–46 (1985). (Equi Diagram, Thermo; Experimental)

  243. J. van Landuyt, G. van Tendeloo, and S. Amelinckx, “Electron Microscopy and Diffraction of Modulated Structures,”Pure Appl. Chem., 57(10), 1373–1382 (1985). (Equi Diagram, Crys Structure, Meta Phases; Review)

    Article  Google Scholar 

  244. S.-T. Lee and D. Nichols, “Outdiffusion and Diffusion Mechanism of Oxygen in Silicon,”Appl. Phys. Lett., 47(9), 1001–1003 (1985). (Equi Diagram, Crys Structure; Experimental)

    Article  ADS  Google Scholar 

  245. M. Matsuura, H. Yao, K. Gouhara, I. Hatta, and N. Kato, “Heat Capacity in α - β Phase Transition of Quartz,”J. Phys. Soc. Jpn., 54(2), 625–629 (1985). (Equi Diagram, Meta Phases, Thermo; Experimental)

    Article  ADS  Google Scholar 

  246. J.C. Mikkelsen, Jr., “The Metallurgy of Oxygen in Silicon,”J. Met., 37, 51–54 (1985). (Equi Diagram; Review)

    Google Scholar 

  247. K.A. Jackson, “A Note on the Si-O Phase Diagram,”Bull. Alloy Phase Diagrams, 9(5), 548–549 (1988). (Equi Diagram; Theory)

    Google Scholar 

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    H. A. Wrledt (Consultant)

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Work was supported by {upASM INTERNATIONAL}. Part of the literature search was provided by {upASM INTERNATIONAL}. Literature searched through 1985. Dr. Wriedt is the ASM/NIST Data Program Category Editor for binary oxygen alloys.

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Wrledt, H.A. The O-Si (Oxygen-Silicon) system. Bulletin of Alloy Phase Diagrams 11, 43–61 (1990). https://doi.org/10.1007/BF02841583

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