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Conductivity and Sulfur Activity in Liquid Copper Sulfide

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Abstract

The conductivity of liquid copper sulfide has been measured as a function of the mole fraction of sulfur in the melt at three temperatures: 1170°, 1250°, and 1300°C. The results show that a) the conductivity of copper-rich Cu2S is independent of the sulfur pressure in the furnace, and b) the conductivity of sulfur-rich copper sulfide increases rapidly with sulfur pressure. Assuming that the band theory is applicable to liquids leads to the conclusion that copper-rich copper sulfide is an intrinsic semiconductor, in which case electrons act as carriers. The activation energy for conduction in this case has been calculated to be 0.7 ev. On the other hand, sulfur-rich copper sulfide behaves as a p-type semiconductor, positive holes being responsible for conduction.

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Author information

Authors and Affiliations

  1. University of Montreal, Montreal, USA

    M. Bourgon (Assistant Professor of Chemistry)

  2. Carnegie Institute of Technology, Pittsburgh, USA

    G. Derge (Member AIME, Jones and Laughlin Professor of Metallurgical Engineering) & G. M. Pound (Member AIME, Associate Professor of Metallurgical Engineering)

Authors
  1. M. Bourgon
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  2. G. Derge
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  3. G. M. Pound
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Additional information

M. BOURGON, formerly Visiting Research Chemist, Carnegie Institute of Technology

TP 4627D. Manuscript, Feb. 6, 1957. New Orleans Meeting, February, 1957.

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Bourgon, M., Derge, G. & Pound, G.M. Conductivity and Sulfur Activity in Liquid Copper Sulfide. JOM 9, 1454–1458 (1957). https://doi.org/10.1007/BF03377944

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  • DOI: https://doi.org/10.1007/BF03377944

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