672 / 2019-04-13 00:14:53
Predicting the electron affinity of ZnSiP2 semiconductor from first-principle calculations
ZnSiP2, solar cells, first-principle calculations, electron affinity
Final Paper
Xianfeng Feng / Xi'an University of Technology
Haozhe Zhang / Xi'an University of Technology
Tandem photovoltaic architecture is an effective way to improve photoelectric conversion efficiency because of less thermalization loss. ZnSiP2 has the potential to meet the requirements needed for a top cell in tandem silicon-based solar cells. Electron affinity is an important electrical parameter of semiconductor materials, which has not been reported publicly in the literature on ZnSiP2. In this work, electron affinity of ZnSiP2 is investigated by using Vienna ab initio simulation package (VASP). PBE density functional method and HSE06 hybrid functional method are used to optimize the lattice structure and the band structure, respectively. The results are as follows: the lattice constant of ZnSiP2 is 5.420 Å, and the band gap is 2.048 eV. Based on the
above work, the electron affinity of ZnSiP2 (001) crystal plane is calculated at different vacuum layer thicknesses, which is 3.056 eV at 16 Å vacuum layer. This work is helpful to the performance simulation and architectural design of ZnSiP2/Si tandem solar cells.
Important Date
  • Conference Date

    Jun 12

    2019

    to

    Jun 14

    2019

  • Jun 12 2019

    Draft paper submission deadline

  • Jun 14 2019

    Registration deadline

Organized By
Xi'an University of Technology
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