High-temperature metal sulfide chemistry

1. Morey, G. W.: The solubility of solids in gases. Econ. Geol. 52, 225–251 (1957)

   CAS  Google Scholar 

2. Kullerud, G.: Experimental techniques in dry sulfide research. In: Research techniques for high pressure and high temperature (ed. G. C. Ulmer). New York: Springer 1971, pp. 289–315

   Google Scholar 

3. Kullerud, G.: Differential thermal analysis. Carnegie Institution of Washington, Year Book 58, 161–163 (1959)

   Google Scholar 

4. Moh, G. H.: Experimental and descriptive ore mineralogy, Report 1976. N. Jb. Miner. Abh. 128, 2, 115–188 (1976)

   CAS  Google Scholar 

5. Moh, G. H., Grover, B., Hüller, R.: Experimentelle Untersuchungen an hochtemperaturbeständigen Kupfer-Molybdän-und Eisen-Molybdän-Sulfiden und ihren Mischkristallen. Chemiker-Ztg. 99, 285–291 (1975)

   CAS  Google Scholar 

6. Hansen, M., Anderko, K.: Constitution of binary alloys. 2nd edit. New York: McGraw-Hill 1958, pp. 1305

   Google Scholar 

7. Elliott, R. P.: Constitution of binary alloys. 1 st suppl. New York: McGraw-Hill 1965, pp. 875

   Google Scholar 

8. Shunk, F. A.: Constitution of binary alloys. 2nd suppl. New York: McGraw-Hill 1969, pp. 720

   Google Scholar 

9. Kullerud, G.: Review and evaluation of recent research on geologically significant sulfidetype systems. Fortschr. Miner. 41, 2, 221–270 (1964)

   CAS  Google Scholar 

10. Jellinek, F.: Sulphides. In: Inorganic sulphur chemistry (ed. G. Nickless). Amsterdam-London-New York: Elsevier 1968, pp. 669–747

    Google Scholar 

11. El Goresy, A., Kullerud, G.: Meteorite minerals; the Cr-S and Fe-Cr-S system. Carnegie Institution of Washington, Year Book 67, 182–187 (1969)

    Google Scholar 

12. El Goresy, A., Kullerud, G.: Phase relations in the system Cr-Fe-S (ed. P. M. Millmann). Meteorite Research No. 53, 638–656 (1968)

    Google Scholar 

13. Jellinek, F.: The structures of the chromium sulfides. Acta Cryst. 10, 620–628 (1957)

    CAS  Google Scholar 

14. Kullerud, G.: Sulfide phase relations. 50th anniv. Sympos.: Mineralogy and Geochemistry of non-marine evaporites. Miner. Soc. Amer., Spec. public. No. 3, 199–210 (1970)

    Google Scholar 

15. Bell, R. E., Herfert, R. E.: Preparation and characterization of a new crystalline form of molybdenum disulfide. J. Amer. Chem. Soc. 79, 3351–55 (1957)

    CAS  Google Scholar 

16. Jellinek, F., Brauer, C., Mueller, H.: Molybdenum and niobium sulfides. Nature 185, 376–377 (1960)

    CAS  Google Scholar 

17. Takeuchi, Y., Nowacki, W.: Detailed crystal structure of rhombohedral MoS₂ and systematic deduction of possible polytypes of molybdenite. Schweiz. Mineral. Petrog. Mitt. 44, 105–120 (1964)

    CAS  Google Scholar 

18. Graeser, S.: über Funde der neuen rhomboedrischen MoS₂-Modifikation (Molybdänit-3R) und von Tungstenit in den Alpen. Schweiz. Mineral. Petrog. Mitt. 44, 121–128 (1964)

    CAS  Google Scholar 

19. Ramdohr, P.: Die Erzmineralien und ihre Verwachsungen. 4. Aufl. Berlin: Akademie-Verlag 1975, pp. 1277

    Google Scholar 

20. Gmelins Handbuch der anorganischen Chemie: Molybdän-Wolfram-Uran; 8th edit. System No. 53, Berlin: Verlag Chemie 1935, pp. 182–188

    Google Scholar 

21. Chevrel, R., Sergent, M., Prigent, J.: Un nouveau sulfure de Molybdene: Mo₃S₄ preparation, propriétés et structure cristalline. Mat. Res. Bull. 9, 11, 1487–98 (1974)

    Article  CAS  Google Scholar 

22. Morimoto, N., Kullerud, G.: The Mo-S system. Carnegie Institution of Washington, Year Book 61, 143–144 (1962)

    Google Scholar 

23. Stubbles, J. R., Richardson, F. D.: Equilibrium in the system molybdenum + sulfur + hydrogen. Trans. Faraday Soc. 56, 1460–66 (1960)

    Article  CAS  Google Scholar 

24. Jellinek, F.: Structure of molybdenum sesquisulfide. Nature 192, 1065–66 (1961)

    CAS  Google Scholar 

25. Semiletov, S. A.: The crystalline structure of rhombohedral MoS₂. Soviet Phys. Cryst. 6, 428–431 (1962)

    Google Scholar 

26. Wilderwanck, J. C., Jellinek, F.: Preparation and crystallinity of molybdenum and tungsten sulfides. Z. Anorg. Chem. 328, 309–318 (1964)

    Google Scholar 

27. Moh, G. H., Udubasa, G., Hüller, R.: Hochtemperatur-Phasengleichgewichte im System Molybdän-Schwefel. Metall 28, 8, 804 (1974)

    CAS  Google Scholar 

28. Dreizler, W., Moh, G. H.: High temperature DTA experimentation, unpublished research, Stuttgart (1976)

    Google Scholar 

29. Cannon, P.: Melting point and sublimation of molybdenum disulfide. Nature 183, 1612–13 (1959)

    CAS  Google Scholar 

30. Takeno, S., Moh, G. H.: High temperature experimentation with selected sulfides, unpublished research, Hiroshima/Japan (1976)

    Google Scholar 

31. štemprok, M.: The Bi-Mo-S system. Carnegie Institution of Washington, Year Book 65, 336–337 (1967)

    Google Scholar 

32. Clark, A. H.: Evidence for the geological occurrence of molybdenum trisulfide. Nature Phys. Science 234, 177–178 (1971)

    CAS  Google Scholar 

33. Rode, E. Ya., Lebedev, B. A.: Physico-chemical investigations on molybdenum trisulfide and on its thermal break-down products. (Orig. in Russian) Zh. Neorgan. Khim. 6, 1189–1197 (1961)

    CAS  Google Scholar 

34. Wells, R. C., Butler, B. C.: Tungestenite, a new mineral. J. Wash. Acad. Sci. 7, 596–599 (1917)

    Google Scholar 

35. Samoilov, S. M., Rubinstein, A. M.: Study of physical and chemical properties of WS₂ catalysator. (Orig. in Russian) Izv. Akad. Nauk. SSSR, Otd. Khim. Nauk. 11, 11905–11912 (1959)

    Google Scholar 

36. Ehrlich, P.: Untersuchungen an Wolframsulfiden. Z. Anorg. Chem. 257, 247–253 (1948)

    Article  CAS  Google Scholar 

37. Moh, G. H., Udubasa, G.: Molybdänit-Tungstenit-Mischkristalle und Phasenrelationen im System Mo-W-S. Chem. Erde 35, 327–335 (1976)

    CAS  Google Scholar 

38. Agte, C., Vacek, J.: Wolfram a Molybden. Prague: Staatsverl. f. techn. Literatur, 1954

    Google Scholar 

39. German translation by H. Herklotz: Wolfram und Molybdän. Berlin: Akademie-Verl. 1959

    Google Scholar 

40. Hóll, R., Weber-Diefenbach, K.: Tungstenit-Molybdänit-Mischphasen in der Scheelitlagerstätte Felbertal (Hohe Tauern, österreich). N. Jb. Miner. Mh. H. 1, 27–34 (1973)

    Google Scholar 

41. Kullerud, G., Yoder, H. S.: Pyrite stability relations in the Fe-S system. Econ. Geol. 54, 4, 533–572 (1959)

    CAS  Google Scholar 

42. Power, L. F., Fine, H. A.: The iron-sulphur system. Minerals Sci. Engng. (Johannesburg, S. A.) Vol. 8, 2, 106–128 (1976)

    CAS  Google Scholar 

43. Ramdohr, P.: Der Mundrabilla-Meteorit. Fortschr. Miner. 53, 2, 165–186 (1976).

    CAS  Google Scholar 

44. Bell, P. M., El Goresy, A., England, J. L., Kullerud, G.: Pressure-temperature diagram for Cr₂FeS₄. Carnegie Institution of Washington, Year Book 68, 277–278 (1970)

    Google Scholar 

45. Grover, B., Moh, G. H.: Experimentelle Untersuchungen des quaternären Systems Kupfer-Eisen-Molybdän-Schwefel. Vortrag DMG-Tagung, München 1966, Referate (1966)

    Google Scholar 

46. Moh, G. H.: Experimental sulfide petrology and its application. Izvj. Jugoslav. centr. krist. (Zagreb) 10, 5–14 (1975)

    Google Scholar 

47. Grover, B., Kullerud, G., Moh, G. H.: Phasengleichgewichtsbeziehungen im ternären System Fe-Mo-S in Relation zu natürlichen Mineralien und Erzlagerstätten. N. Jb. Miner. Abh. 124, 3, 246–272 (1975)

    CAS  Google Scholar 

48. Wang, N., Moh, G. H.: Crystallographic and microscopic studies on the refractory sulfides: ∼CuMo₂S₃ and FeMo₄S₆. N. Jb. Miner. Mh. H. 1, 36–43 (1976)

    Google Scholar 

49. Chevrel, R., Sergent, M.: Chimie minérale. Preparation de thiomolybdites d'éléments de transition. C. R. Acad. Sc. Paris 267, 1135–36 (1968)

    CAS  Google Scholar 

50. Guillevic, J., Chevrel, R., Sergent, M.: étude radiocristallographique de FeMo₂S₄ et de CoMo₂S₄. Bull. Soc. Fr. Mineral. Cristallogr. 93, 495–97 (1970)

    CAS  Google Scholar 

51. Chevrel, R., Sergent, M., Prigent, J.: Sur de nouvelles phases sulfurées ternaires du molybdène. Jour. Solid State Chem. 3, 515–519 (1971)

    CAS  Google Scholar 

52. Skvorcova, K. V., Sidorenko, G. A., Dara, A. D., Silantjeva, I. I., Medoeva, M. M.: Femolite a new sulphide of molybdenum. Zapiski vses. mineral obshch. 93, 436–443 (1964)

    Google Scholar 

53. štemprok, M.: The iron-tungsten-sulphur system and its geological application. Miner. Deposita 6, 302–312 (1971)

    Google Scholar 

54. Vogel, R., Weizenkorn, H.: über das Dreistoffsystem Eisen-Schwefel-Wolfram. Archiv Eisenhüttenwesen 32, 6, 413–420 (1961)

    CAS  Google Scholar 

55. Vogel, R.: Ergebnisse ternärer Zustandsdiagramme des Eisens, angewandt auf Fragen der Kosmochemie. Chem. Erde 21, 24–47 (1962)

    Google Scholar 

56. Holland, H. D.: Some applications of thermochemical data to problems of ore deposits. II. Mineral assemblages and the composition of ore-forming fluids. Econ. Geol. 60, 1101–1166 (1965)

    CAS  Google Scholar 

57. Barton, P. B., Skinner, B. J.: Sulfide mineral stabilities. In: Geochemistry of hydrothermal ore deposits (ed. H. L. Barnes). New York: Holt, Rinehardt & Winston 1967, pp. 236–333

    Google Scholar 

58. Kubaschewski, O., Evans, E.: Metallurgical thermochemistry. (Russ. translation); London: Butterworth-Springer (1951)

    Google Scholar 

59. Kullerud, G.: Covellite stability relations in the Cu-S system. Freiburger Forschungsh. C 186, 145–160 (1965)

    Google Scholar 

60. Roseboom, E. H.: An investigation of the system Cu-S and some natural copper sulfides between 25‡ and 700 ‡C. Econ. Geol. 61, 641–672 (1966)

    CAS  Google Scholar 

61. Morimoto, N., Koto, K.: Phase relations of the Cu-S system at low temperatures: stability of anilite. Am. Mineralogist 55, 106–117 (1970)

    CAS  Google Scholar 

62. Moh, G. H.: Blue remaining covellite and its relations to phases in the sulfur-rich portion of the copper-sulfur system at low temperatures. Mineral. Soc. Japan (Proc. IMA-IAGOD Meetings '70, IMA-Vol.) spec. pap. 1, 226–232 (1971)

    Google Scholar 

63. Grover, B., Moh, G. H.: Phasengleichgewichtsbeziehungen im System Cu-Mo-S in Relation zu natürlichen Mineralien. N. Jb. Miner. Mh. 529–544 (1969)

    Google Scholar 

64. Grover, B.: New phase equilibria in the system copper-molybdenum-sulphur. N. Jb. Miner. Mh. H. 7, 219–221 (1965)

    Google Scholar 

65. Schüller, A., Ottemann, J.: Castaingit, ein neues mit Hilfe der Elektronen-Mikrosonde bestimmtes Mineral aus dem Mansfelder ‚'Rücken“. N. Jb. Miner. Abh. 100, 317–321 (1963)

    Google Scholar 

66. Clark, A. H., Sillitoe, R. H.: Supergene CuMo₂S₅ (‚'Castaingite“), Potrerillos, Atacama Province, Chile. N. Jb. Miner. Mh. 499–503 (1969)

    Google Scholar 

67. Moh, G. H.: Das Cu-W-System und seine Mineralien sowie ein neues Tungstenitvorkommen in Kipushi/Katanga. Mineral. Deposits 8, 291–300 (1973)

    CAS  Google Scholar 

68. Cissarz, A.: übergangslagerstätten innerhalb der intrusivmagmatischen Abfolge. N. Jb. Miner. Geol. Paleontol. 56, 99–274 (1928)

    CAS  Google Scholar 

69. Matthias, B. T., Marezio, M., Corenzwit, E., Cooper, A. S., Barz, H. E.: High-temperature superconductors, the first ternary system. Science 175, No. 4029, 1465–66 (1972)

    CAS  Google Scholar 

70. Fischer, Ø., Odermatt, R., Bongi, G., Jones, H., Chevrel, R., Sergent, M.: On the superconductivity in the ternary molybdenum sulfides. Physics Letters 45 A, 2, 87–88 (1973)

    Google Scholar 

71. Marezio, M., Dernier, P. D., Remeika, J. P., Corenzwit, E., Matthias, B. T.: Superconductivity of ternary sulfides and the structure of PbMo₆S₈. Mat. Res. Bull. 8, 657–668 (1973)

    Article  CAS  Google Scholar 

72. Mills, K. C.: Thermodynamic data for inorganic sulfides, selenides and tellurides. London: Butterworths 1974

    Google Scholar 

73. Merwin, H. E., Lombard, R. H.: The system Cu-Fe-S. Econ. Geol. 32, 203–284 (1937)

    CAS  Google Scholar 

74. Schlegel, H., Schüller, A.: Die Schmelz-und Kristallisationsgleichgewichte im System Kupfer-Eisen-Schwefel und ihre Bedeutung für die Kupfergewinnung. Freiberger Forschungsh., B, Hüttenwesen, Metallurgie 2, 31 (1952)

    Google Scholar 

75. Yund, R. A., Kullerud, G.: Thermal stability of assemblages in the Cu-Fe-S system. Jour. Petrology 7, 3, 454–488 (1966)

    CAS  Google Scholar 

76. Cabri, L. J.: New data on phase relations in the Cu-Fe-S system. Econ. Geol. 68, 4, 443–454 (1973)

    CAS  Google Scholar 

77. Kullerud, G., Yund, R. A., Moh, G. H.: Phase relations in the Cu-Fe-S, Cu-Ni-S, and Fe-Ni-S systems. Econ. Geol. Monograph 4, 323–343 (1969)

    Google Scholar 

78. Chace, F. M.: Abbreviations in field and mine geological mapping. Econ. Geol. 51, 712–723 (1956)

    Google Scholar 

79. Moh, G. H.: Ore mineral systems; Report 1975. N. Jb. Miner. Abh. 126, 2, 126–145 (1976)

    CAS  Google Scholar 

80. Moh, G. H.: The sphalerite-wurtzite inversion, pp. 38–40. In: Tin-containing mineral systems, Part. II. Phase relations and mineral assemblages in the Cu-Fe-Zn-Sn-S system. Chem. Erde 34, 1, 1–61 (1975)

    Google Scholar 

81. Addamiano, A., Dell, P. A.: The melting point of zinc sulfide. J. Phys. Chem. 61, 1020–1021 (1957)

    CAS  Google Scholar 

82. Moh, G. H.: Ore minerals; Report 1977. N. Jb. Miner. Abh.: N. Jb. Miner. Abh. 131, 1, 1–55 (1977)

    CAS  Google Scholar 

83. Nekrasov, I. Ya.: Phase relations of hemusite in the system Cu-Mo-Sn-S between 300 and 400 ‡C. In: Phase relations in tin-containing systems. (Orig. in Russian). Moscow: Akad. Nauk Verl. 1976, pp. 179–186

    Google Scholar 

84. Moh, G. H.: Scheme of mineral systems: microscopical observations on typical sulfide ores with an interpretation based on laboratory experiments. Fortschr. Miner. 55, 1, 79–104 (1977)

    CAS  Google Scholar 

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