Investigation for Optimum Structure of CdS:O/CdTe Solar Cell from Numerical Analysis

In this paper, various factors that affect the solar cell performances are investigated with emphasis given to the window layer (CdS:O) thickness, operating temperature and light intensity as well as the effect of front contact and BSF layers. Various parameters of solar cells such as quantum efficiency, series and shunt resistance associated with the front contact and BSF materials have been investigated also. Two materials ZnO and SnO2 were used as front contact and two materials Sb2Te3 and ZnTe were used as BSF layers to investigate their effects on ultra-thin cell performances. The results have shown that the BSF layers have no unfavourable effect on cell stability with temperature increase as the cell temperature coefficients with these BSF layers were 0.1% (ZnTe) to 0.3% (Sb2Te3). However, the results of the comparisons demonstrate that the best option is Sb2Te3 as BSF material, which exhibits lowest series resistance and behaves as an excellent minority carrier mirror whereas ZnTe showed unexpected series resistance problems because of the adverse heterojunction with CdTe.

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