Publication Type : Journal Article
Publisher : Computational Condensed Matter
Source : Computational Condensed Matter, Vol.19, pp. e00334, June 2019
Url : https://www.sciencedirect.com/science/article/abs/pii/S2352214318302570
Campus : Chennai
School : School of Engineering
Department : Electronics and Communication
Year : 2019
Abstract : Structural, electronic and optical properties of Cu2ZnGe(S/Se)4 semiconductor materials in their kesterite and stannite phase have been investigated using density functional theory (DFT) approach using full potential linearized augmented plane wave (FP-LAPW) method. Modified Becke-Johnson (mBJ) exchange correlation is used for computing physical properties. These kesterite and stannite Cu2ZnGeS4 and Cu2ZnGeSe4 are direct band semiconductors with band gap values ∼1.15 eV and 1.0 eV for Cu2ZnGeS4 and 0.64 eV and 0.24 eV for Cu2ZnGeSe4, respectively at Γ point. A scissor correction of 1 eV raised these band gap values equal to the experiment values. Optical properties are investigated in terms of refractive index, extinction coefficient, reflectivity, optical conductivity, and optical absorption using dielectric constant.
Cite this Research Publication : G. K. Gupta, R. Chaurasiya, A. Dixit, Theoretical studies on structural, electronic and optical properties of kesterite and stannite Cu2ZnGe(S/Se)4 solar cell absorbers, Computational Condensed Matter, Vol.19, pp. e00334, June 2019