ZnO1-xTex ternary alloys have great potential to work as a photovoltaic (PV) absorber in solar cells. ZnOl-xSx is also a ZnO based alloy that have uses in solar cells. In this paper we report the comparative study o...ZnO1-xTex ternary alloys have great potential to work as a photovoltaic (PV) absorber in solar cells. ZnOl-xSx is also a ZnO based alloy that have uses in solar cells. In this paper we report the comparative study of various parameters of ZnO 1-x Tex and ZnO 1-x Sx for selecting it to be a competent material for solar cell applica- tions. The parameters are mainly being calculated using the well-known VCA (virtual crystal approximation) and VBAC (Valence Band Anti-Crossing) model. It was certainly being analysed that the incorporation of Te atoms produces a high band gap lower than S atoms in the host ZnO material. The spin-orbit splitting energy value of ZnOl-xTex was found to be higher than that of ZnOl-xSx. Beside this, the strain effects are also higher in ZnO^-xTex than ZnOl-xSx. The remarkable notifying result which the paper is reporting is that at a higher per- centage of Te atoms in ZnOl-xTex, the spin-orbit splitting energy value rises above the band gap value, which signifies a very less intemal carrier recombination that decreases the leakage current and increases the efficiency of the solar cell. Moreover, it also covers a wide wavelength range compared to ZnO1-x Sx.展开更多
文摘ZnO1-xTex ternary alloys have great potential to work as a photovoltaic (PV) absorber in solar cells. ZnOl-xSx is also a ZnO based alloy that have uses in solar cells. In this paper we report the comparative study of various parameters of ZnO 1-x Tex and ZnO 1-x Sx for selecting it to be a competent material for solar cell applica- tions. The parameters are mainly being calculated using the well-known VCA (virtual crystal approximation) and VBAC (Valence Band Anti-Crossing) model. It was certainly being analysed that the incorporation of Te atoms produces a high band gap lower than S atoms in the host ZnO material. The spin-orbit splitting energy value of ZnOl-xTex was found to be higher than that of ZnOl-xSx. Beside this, the strain effects are also higher in ZnO^-xTex than ZnOl-xSx. The remarkable notifying result which the paper is reporting is that at a higher per- centage of Te atoms in ZnOl-xTex, the spin-orbit splitting energy value rises above the band gap value, which signifies a very less intemal carrier recombination that decreases the leakage current and increases the efficiency of the solar cell. Moreover, it also covers a wide wavelength range compared to ZnO1-x Sx.
