Numerical Simulation Study of CIGS-based Thin Film and Heterojunction Solar Cells: Doping and Buffer/Absorber Layer Optimization for Maximum Efficiency

Numerical Simulation Study of CIGS-based Thin Film and Heterojunction Solar Cells: Doping and Buffer/Absorber Layer Optimization for Maximum Efficiency

In this work we present the results of the numerical simulation study of the electrical characteristics of a CIGS-based thin film and heterojunction solar cell and their interpretations. First, we will simulate two solar cells of structures: ZnO/CdS(n)/CIGS(p)/Mo and ZnO/ZnS(n)/CIGS(p)/Mo using the...

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Bibliographic Details
Main Authors: Leila Ghalmi, Souhila Bensmaine, Chams El Hayat Merzouk
Format: Article
Language:English
Published: Renewable Energy Development Center (CDER) 2023-04-01
Series:Revue des Énergies Renouvelables
Subjects:
thin films
absorber layer
buffer layer
scaps-1d
photovoltaic parameters
Online Access:https://revue.cder.dz/index.php/rer/article/view/1098
Description
Summary:In this work we present the results of the numerical simulation study of the electrical characteristics of a CIGS-based thin film and heterojunction solar cell and their interpretations. First, we will simulate two solar cells of structures: ZnO/CdS(n)/CIGS(p)/Mo and ZnO/ZnS(n)/CIGS(p)/Mo using the SCAPS-1D software. We will compare the results of the electrical simulation of the CdS cell with those found experimentally. Next, we will compare the electrical simulation results of the CdS cell with the ZnS cell. After that, we will choose the best cell to study the effect of doping and buffer/absorber layer thickness on the photovoltaic parameters () of the solar cell with the aim of achieving maximum efficiency of the CIGS-based solar cell.
ISSN:1112-2242
2716-8247

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