Boosting Efficiency in Flexible Perovskite Solar Cells with Novel HTLs and ETLs: A drift‐diffusion numerical study of CBz‐PAI Interlayers and MXene Back Contacts DOI Open Access

Mohamed Amine Benatallah,

Abdennour Elmohri,

Yaacoub Ibrahim Bouderbala

et al.

Advanced Theory and Simulations, Journal Year: 2025, Volume and Issue: unknown

Published: Jan. 22, 2025

Abstract In this study, the functioning of flexible perovskite solar cells (FPSCs) is examined using drift‐diffusion SCAPS‐1D simulations under ideal conditions. The focus on CBz‐PAI interlayer at and hole transport layer (HTL) interface impact innovative materials for HTLs, electrons layers (ETLs), transparent conduction electrodes (TCOs), such as AZO MXene, in front back contacts. Initially, 50 configurations ETLs, including BaZrS 3 , SnS 2 STO, WS ZrS well HTLs ACZTSe, CuBiS CZGS, D‐PBTTT‐14, are tested to identify optimal architecture enhancing device efficiency. incorporation effectively reduces interfacial charge recombination, minimizing V OC losses boosting overall performance. After further optimization integration MXene a contact, final FPSC design (PET/ITO/AZO/ZrS /(FAPbI ) 0.77 (MAPbBr 0.14 (CsPbI 0.09 /CBz‐PAI/CZGS/MXene‐V C F achieves an impressive PCE 27.17%, setting new benchmark

Language: Английский

Evaluating A2SrGeI6 (A = K and Rb) Lead-Free double Perovskites: Structural, Elastic, and optoelectronic insights for clean energy DOI
Afzal Khan, Selma Rabhi,

Muhammad Awais Jehangir

et al.

Inorganic Chemistry Communications, Journal Year: 2025, Volume and Issue: unknown, P. 113949 - 113949

Published: Jan. 1, 2025

Language: Английский

Citations

1
Boosting Efficiency in Flexible Perovskite Solar Cells with Novel HTLs and ETLs: A drift‐diffusion numerical study of CBz‐PAI Interlayers and MXene Back Contacts DOI Open Access

Mohamed Amine Benatallah,

Abdennour Elmohri,

Yaacoub Ibrahim Bouderbala

et al.

Advanced Theory and Simulations, Journal Year: 2025, Volume and Issue: unknown

Published: Jan. 22, 2025

Abstract In this study, the functioning of flexible perovskite solar cells (FPSCs) is examined using drift‐diffusion SCAPS‐1D simulations under ideal conditions. The focus on CBz‐PAI interlayer at and hole transport layer (HTL) interface impact innovative materials for HTLs, electrons layers (ETLs), transparent conduction electrodes (TCOs), such as AZO MXene, in front back contacts. Initially, 50 configurations ETLs, including BaZrS 3 , SnS 2 STO, WS ZrS well HTLs ACZTSe, CuBiS CZGS, D‐PBTTT‐14, are tested to identify optimal architecture enhancing device efficiency. incorporation effectively reduces interfacial charge recombination, minimizing V OC losses boosting overall performance. After further optimization integration MXene a contact, final FPSC design (PET/ITO/AZO/ZrS /(FAPbI ) 0.77 (MAPbBr 0.14 (CsPbI 0.09 /CBz‐PAI/CZGS/MXene‐V C F achieves an impressive PCE 27.17%, setting new benchmark

Language: Английский

Citations

1