串联金属氧化物太阳能电池的光学建模与仿真

Florin Drăgan, Ørnulf Nordseth, L. Fara, C. Dumitru, D. Craciunescu, Vlad Muscurel, P. Sterian
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引用次数: 3

摘要

摘要采用两种最有效的光学建模方法,即光线追踪和传递矩阵算法,对掺杂al掺杂ZnO和Cu2O金属氧化物的硅基串联太阳能电池进行了研究。仿真基于专用软件Silvaco Atlas和MATLAB以及OPAL2仿真平台进行。光学分析包括计算组成电池的不同厚度薄膜层的反射率、吸收率和透射率的光谱曲线。根据最小反射率和最大透射率确定了AZO层的最佳厚度。此外,在光学建模的基础上,研究了几种材料,以确定串联太阳能电池的最佳缓冲层。为了实现这种异质结太阳能电池的最高转换效率,对ZnO/Cu2O顶部亚电池的光学参数进行了优化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optical Modeling and Simulation of Tandem Metal Oxide Solar Cells
Abstract An investigation of silicon-based tandem solar cells incorporating Al-doped ZnO (AZO) and Cu2O metal oxides, via two of the most efficient methods of optical modeling, specifically ray tracing and transfer matrix algorithms, was performed. The simulations were conducted based on specialized software, namely Silvaco Atlas and MATLAB, as well as on OPAL2 simulation platform. The optical analysis involved the calculation of the spectral curves for reflectance, absorptance and transmittance for different thicknesses of the thin film layers constituting the cell. It was established the optimum thickness of the AZO layer based on the minimum reflectance and maximum transmittance. Moreover, several materials were investigated in order to determine the optimum buffer layer for the tandem solar cell, based on optical modeling. The optical parameters of the ZnO/Cu2O top subcell were optimized, in order to achieve the highest conversion efficiency of such heterojunction solar cell.
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