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Volume 19 Issue 12
Dec.  2012
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Yong-jun Xian, Shu-ming Wen, Xiu-ming Chen, Jiu-shuai Deng, and Jian Liu, Effect of lattice defects on the electronic structures and floatability of pyrites, Int. J. Miner. Metall. Mater., 19(2012), No. 12, pp. 1069-1076. https://doi.org/10.1007/s12613-012-0672-5
Cite this article as:
Yong-jun Xian, Shu-ming Wen, Xiu-ming Chen, Jiu-shuai Deng, and Jian Liu, Effect of lattice defects on the electronic structures and floatability of pyrites, Int. J. Miner. Metall. Mater., 19(2012), No. 12, pp. 1069-1076. https://doi.org/10.1007/s12613-012-0672-5
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Effect of lattice defects on the electronic structures and floatability of pyrites

  • 通讯作者:

    Shu-ming Wen    E-mail: shmwen@126.com

  • The electronic structures of three types of lattice defects in pyrites (i.e., As-substituted, Co-substituted, and intercrystalline Au pyrites) were calculated using the density functional theory (DFT). In addition, their band structures, density of states, and difference charge density were studied. The effect of the three types of lattice defects on the pyrite floatability was explored. The calculated results showed that the band-gaps of pyrites with Co-substitution and intercrystalline Au decreased significantly, which favors the oxidation of xanthate to dixanthogen and the adsorption of dixanthogen during pyrite flotation. The stability of the pyrites increased in the following order:As-substituted < perfect < Co-substituted < intercrystalline Au. Therefore, As-substituted pyrite is easier to be depressed by intensive oxidization compared to perfect pyrite in a strongly alkaline medium. However, Co-substituted and intercrystalline Au pyrites are more difficult to be depressed compared to perfect pyrite. The analysis of the Mulliken bond population and the electron density difference indicates that the covalence characteristic of the S-Fe bond is larger compared to the S-S bond in perfect pyrite. In addition, the presence of the three types of lattice defects in the pyrite bulk results in an increase in the covalence level of the S-Fe bond and a decrease in the covalence level of the S-S bond, which affect the natural floatability of the pyrites.
  • Effect of lattice defects on the electronic structures and floatability of pyrites

    + Author Affiliations
    • The electronic structures of three types of lattice defects in pyrites (i.e., As-substituted, Co-substituted, and intercrystalline Au pyrites) were calculated using the density functional theory (DFT). In addition, their band structures, density of states, and difference charge density were studied. The effect of the three types of lattice defects on the pyrite floatability was explored. The calculated results showed that the band-gaps of pyrites with Co-substitution and intercrystalline Au decreased significantly, which favors the oxidation of xanthate to dixanthogen and the adsorption of dixanthogen during pyrite flotation. The stability of the pyrites increased in the following order:As-substituted < perfect < Co-substituted < intercrystalline Au. Therefore, As-substituted pyrite is easier to be depressed by intensive oxidization compared to perfect pyrite in a strongly alkaline medium. However, Co-substituted and intercrystalline Au pyrites are more difficult to be depressed compared to perfect pyrite. The analysis of the Mulliken bond population and the electron density difference indicates that the covalence characteristic of the S-Fe bond is larger compared to the S-S bond in perfect pyrite. In addition, the presence of the three types of lattice defects in the pyrite bulk results in an increase in the covalence level of the S-Fe bond and a decrease in the covalence level of the S-S bond, which affect the natural floatability of the pyrites.
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