A Simulation Study on the Effect of the Thickness and Carrier Concentration of the Active Layers in the n-CdSe/p-CdSe Solar Cell

Maha Ali Abdul Ameer, L. A. Al Taan
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Abstract

In this work, thin-film solar cells based on Cadmium Selenide (CdSe) film were used, due to the low manufacturing cost and superior electronic properties, and this type of cell also achieves appropriate efficiency. The current work will focus on investigating the effect of the thickness and carrier concentration of the active layers in the cell, and the thickness of the window on the performance of the proposed solar cell, using the one-dimension solar cells capacitance simulation SCAPS-1D computer program. The proposed structure of this cell consists of ITO/n-CdSe/p-CdSe/Pt, where ITO was used as a window layer, n-CdSe as a buffer layer, p-CdSe as an absorber layer, and platinum Pt as a back conductive electrode. The results revealed that the cell performed best at thicknesses of 5000 and 100nm for the absorber and buffer layers, respectively, and with carrier concentrations of 10 16 and 10 17 cm -3 for the same layers. The optimal window layer thickness is 100nm. These variables yield open circuit voltage (V OC ), short circuit current density (J SC ), fill factor (FF) of 1.0845 V, 20.87 mA/cm 2 , 88.02% respectively, while the conversion efficiency of cell (Eff.) was obtained, which is 19.92%.
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n-CdSe/p-CdSe太阳电池活性层厚度和载流子浓度影响的模拟研究
本文采用了硒化镉(CdSe)薄膜太阳能电池,由于其制造成本低,电子性能优越,并且该类型的电池也获得了适当的效率。目前的工作将重点研究电池中有源层的厚度和载流子浓度以及窗口厚度对所提出的太阳能电池性能的影响,使用一维太阳能电池电容模拟SCAPS-1D计算机程序。该电池的结构由ITO/n-CdSe/p-CdSe/Pt组成,其中ITO用作窗口层,n-CdSe作为缓冲层,p-CdSe作为吸收层,铂铂作为背导电电极。结果表明,当吸收层和缓冲层的厚度分别为5000 nm和100nm时,载流子浓度分别为10 16和10 17 cm -3时,电池性能最佳。最佳窗层厚度为100nm。这些变量分别产生的开路电压(V OC)、短路电流密度(J SC)、填充因子(FF)分别为1.0845 V、20.87 mA/ cm2和88.02%,而电池的转换效率(Eff)为19.92%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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