The first principles calculation on electronic structure and optical properties of Cu/N-codoped ZnS
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O641

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    Abstract:

    Using the pseudo-potential plane-wave based on the density functional theory (DFT), the band structure, electron density of states and optical properties of intrinsic ZnS, N-, Cu -N and Cu-2 N co-doped ZnS were calculated. The calculation results show that the co-doped systems can reduce the band gap and enhance its Photocatalytic properties. According to the Analysis of the density of states, the co-doped system of Cu-2N make the state density become more diffuse, more state density through the Fermi level, which obviously led to formation of p-type ZnS. At some time, Cu/N co-doping greatly increase the absorption of visible region owing to the lower transition energy of co-doped systems .

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Cite this article as: WANG Qing, ZHAO Wei-Gang, DAI Jian-Feng, LI Wei-Xue. The first principles calculation on electronic structure and optical properties of Cu/N-codoped ZnS [J]. J Sichuan Univ: Nat Sci Ed, 2018, 55: 1019.

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History
  • Received:March 08,2017
  • Revised:April 05,2017
  • Adopted:April 14,2017
  • Online: September 17,2018
  • Published: