Enhanced Conversion Efficiency in MAPbI3 Perovskite Solar Cells through Parameters Optimization via SCAPS-1D Simulation

Son, Chaerin; Son, Hyojung; Jeong, Byoung-Seong

doi:10.3390/app14062390

Applied Sciences

2024

DOI: 10.3390/app14062390

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Enhanced Conversion Efficiency in MAPbI3 Perovskite Solar Cells through Parameters Optimization via SCAPS-1D Simulation

Chaerin Son,

Hyojung Son,

Byoung-Seong Jeong

Abstract: In this study, various factors affecting the efficiency of the MAPbI3 perovskite solar cell (PSC) were analyzed using the SCAPS-1D simulation program. The basic device analyzed in this study had a structure of ITO/TiO2/MAPbI3/Cu2O/Au. The thickness of each layer (electron transport layer (ETL), perovskite absorption layer (PAL), and hole transport layer (HTL)), PAL defect density and interface defect density were investigated as parameters. The optimized parameters that yielded the highest light conversion eff… Show more

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Cited by 2 publications

References 75 publications

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Improving efficiency of germanium-based perovskite solar cells with graphene interface layer: A strategy to minimize charge recombination

Rehman,

Almufarij,

Abd-Elwahed

et al. 2025

Journal of Physics and Chemistry of Solids

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Improving efficiency of germanium-based perovskite solar cells with graphene interface layer: A strategy to minimize charge recombination

Rehman,

Almufarij,

Abd-Elwahed

et al. 2025

Journal of Physics and Chemistry of Solids

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Simulation of novel CsSnBr₃ perovskite solar cells achieving efficiency of 31.62 %

Kheswa,

Majola

2024

Phys. Scr.

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In this study, we performed computational optimization on four designs of CsSnBr3 perovskite solar cells using the SCAPS-1D simulation tool. Our main objective was to enhance the efficiency of the FTO/AlZnO/CsSnBr3/WSe2/Se, FTO/ZnO/CsSnBr3/WSe2/Se, FTO/LiTiO2/CsSnBr3/WSe2/Se, and FTO/WS2/CsSnBr3/WSe2/Se configurations. We investigated how adjusting the thicknesses of the electron transport layer (ETL), hole transport layer (HTL), and perovskite layer, along with varying temperature, series and shunt resistances, and the acceptor doping density of the HTL, affected key performance metrics, such as the short-circuit current (Jsc), open-circuit voltage (Voc), fill factor (FF), and power conversion efficiency (PCE). The optimized PCEs for these configurations were 30.52%, 31.62%, 30.42%, and 30.51%, respectively, indicating that they all achieved similar levels of efficiency. The solar cells performed optimally at a temperature of 300K, with zero series resistance and a shunt resistance of at least 1x105 Ω cm². While zero series resistance is not practical in real-world applications, the findings suggest it should be minimized as much as possible for maximum efficiency. Furthermore, when comparing our results to prior studies, we found that the PCE values of all CsSnBr3-based solar cell designs developed in this research surpassed that of the previously reported ITO/WS2/CsSnBr3/Cu2O/Au cell, which had the highest recorded PCE for similar devices. Our best-performing structure showed a 9.19% improvement in efficiency over the previous record.

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Enhanced Conversion Efficiency in MAPbI3 Perovskite Solar Cells through Parameters Optimization via SCAPS-1D Simulation

Cited by 2 publications

References 75 publications

Improving efficiency of germanium-based perovskite solar cells with graphene interface layer: A strategy to minimize charge recombination

Improving efficiency of germanium-based perovskite solar cells with graphene interface layer: A strategy to minimize charge recombination

Simulation of novel CsSnBr₃ perovskite solar cells achieving efficiency of 31.62 %

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Enhanced Conversion Efficiency in MAPbI3 Perovskite Solar Cells through Parameters Optimization via SCAPS-1D Simulation

Cited by 2 publications

References 75 publications

Improving efficiency of germanium-based perovskite solar cells with graphene interface layer: A strategy to minimize charge recombination

Improving efficiency of germanium-based perovskite solar cells with graphene interface layer: A strategy to minimize charge recombination

Simulation of novel CsSnBr3 perovskite solar cells achieving efficiency of 31.62 %

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Product

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Simulation of novel CsSnBr₃ perovskite solar cells achieving efficiency of 31.62 %