Theoretical study of spectral responses of heterojunctions based on CuInSe2 and CuInS2

OAJ Materials and Devices Pub Date : 2020-08-19 DOI:10.23647/ca.md202005

E. Keita, B. Ndiaye, M. Dia, Y. Tabar, C. Sene, B. Mbow

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Abstract

In this work we study the spectral responses of thin films solar cells of heterojunctions based on CuInSe2 and CuInS2. Four-layer structures are studied according to the n+n/pp+ model. First we consider the structure ZnO(n+)/CdS(n)/CuInS2(p)/CuInSe2(p+) where CuInS2 represent the base and CuInSe2 the substrate in this model. Secondly we consider the structure ZnO(n+)/CdS(n)/CuInSe2(p)/ CuInS2(p+), for this model CuInSe2 represent the base and CuInS2 the substrate. ZnO and CdS are used as window layers in each structure. Using the continuity equation that governs transport of carriers in semiconductor material, models for calculating spectral responses are proposed for heterojunctions type n+n/pp+ based on CuInSe2 and CuInS2. For each structure we have presented the energy band diagram based on the Anderson model [1] and determined the expression of the photocurrent. The theoretical results obtained allow to compare the performances of these two models by optimizing the different parameters of each structure (base thickness, diffusion length, recombination velocity at the interface, etc.) in order to improve the overall efficiency of the collection of carriers.

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基于CuInS2和CuInS2的异质结光谱响应的理论研究

本文研究了基于CuInS2和CuInS2的异质结薄膜太阳能电池的光谱响应。根据n+n/pp+模型研究了四层结构。首先考虑ZnO(n+)/CdS(n)/CuInS2(p)/CuInSe2(p+)的结构，其中CuInS2代表碱，CuInSe2代表衬底。其次考虑了ZnO(n+)/CdS(n)/CuInSe2(p)/ CuInS2(p+)的结构，其中CuInSe2代表基底，CuInS2代表衬底。在每种结构中，ZnO和CdS用作窗口层。利用半导体材料中载流子输运的连续性方程，提出了基于CuInS2和CuInS2的n+n/pp+异质结的光谱响应计算模型。对于每种结构，我们都根据Anderson模型[1]给出了能带图，并确定了光电流的表达式。得到的理论结果可以通过优化每种结构的不同参数(基底厚度、扩散长度、界面处的复合速度等)来比较两种模型的性能，从而提高载流子收集的整体效率。

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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OAJ Materials and Devices

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