期刊
PHYSICAL REVIEW B
卷 79, 期 11, 页码 -出版社
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.79.115126
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资金
- Austrian Fonds zur Frderung der wissenschaftlichen Forschung within the START [Y218]
- Austrian Science Fund (FWF) [Y218] Funding Source: Austrian Science Fund (FWF)
First-principles calculations for the potential photovoltaic material Cu2ZnSnS4 (CZTS) are presented using density functional theory and the Perdew-Burke-Ernzerhof exchange-correlation functional as well as using the Heyd-Scuseria-Ernzerhof (HSE) hybrid functional. The HSE results compare very favorably to experimental data for the lattice constants and the band gap, as demonstrated for CZTS and selected ternary chalcopyrites such as CuInS2, CuInSe2, CuGaS2, and CuGaSe2. Furthermore the HSE band structure is validated using G(0)W(0) quasiparticle calculations. The valence band is found to be made up by an antibonding linear combination of Cu-3d states and S-3p states, whereas an isolated band made up by Sn-5s and S-3p states dominates the conduction band. In the visible wavelength, the optical properties are determined by transitions from the Cu-3d/S-3p states into this conduction band. Comparison of the optical spectra calculated in the independent-particle approximation and using time-dependent hybrid functional theory indicates very small excitonic effects. For the structural properties, the kesterite-type structure of I (4) over bar symmetry is predicted to be the most stable one, possibly along with cation disorder within the Cu-Zn layer. The energy differences between structural modifications are well approximated by a simple ionic model.
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