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Toward High‐Efficiency CIGS‐based Thin‐film Solar Cells Incorporating Surface Defects Layer, through a Comparative Study of Electrical Characteristics—SCAPS 1D Modeling

Anne Marie Houmomou, Sali Mohammadou, Guy Maurel Dzifack Kenfack, Fridolin Tchangnwa Nya, A. Laref, Alidou Mohamadou

2023Energy Technology14 citationsDOI

Abstract

This research contribution investigates a way of improving performance of CIGSe‐based second‐generation thin‐film solar cells by analyzing output parameters of two reference cells using cadmium sulfide and zinc sulfide as buffer layers. The performances are improved by acknowledging both the exceptional properties of ZnS as a buffer layer, and the beneficial contributions of an indium‐enrich layer, which form a surface defect layer at the ZnS/CIGSe heterojunction. SCAPS‐1D numerical modeling software is used to conduct calculations, and the structure using ZnS enables achieving an efficiency of 24.31%. Deeper investigation on the effects of variation of functional layers properties such as bandgap, electron affinity, doping level, and thickness enables retaining an optimized structure, and results show an improved efficiency of 25.22% and a fill factor of 80.26%, indicating of a fluid flow of charge carriers, thus a more stable device. All simulations are performed considering experimental environment parameters, an external temperature of 300 K, light illumination of AM1.5G, and defects states are assumed in both the bulk and at interfaces.

Topics & Concepts

Materials scienceCopper indium gallium selenide solar cellsCadmium sulfideOptoelectronicsDopingHeterojunctionIndiumLayer (electronics)Band gapZinc sulfideThin filmCadmium telluride photovoltaicsSolar cellPhotovoltaic systemZincNanotechnologyElectrical engineeringEngineeringMetallurgyChalcogenide Semiconductor Thin FilmsQuantum Dots Synthesis And PropertiesCopper-based nanomaterials and applications