Hole-Transport Management Enables 23%-Efficient and Stable Inverted Perovskite Solar Cells with 84% Fill Factor

Liming Liu; Yajie Ma; Yousheng Wang; Qiaoyan Ma; Zixuan Wang; Zigan Yang; Meixiu Wan; Tahmineh Mahmoudi; Yoon-Bong Hahn; Yaohua Mai

doi:10.1007/s40820-023-01088-4

Nano-Micro Letters (Apr 2023)

Hole-Transport Management Enables 23%-Efficient and Stable Inverted Perovskite Solar Cells with 84% Fill Factor

Liming Liu,
Yajie Ma,
Yousheng Wang,
Qiaoyan Ma,
Zixuan Wang,
Zigan Yang,
Meixiu Wan,
Tahmineh Mahmoudi,
Yoon-Bong Hahn,
Yaohua Mai

Affiliations

Liming Liu: Institute of New Energy Technology, College of Information Science and Technology, Jinan University
Yajie Ma: Institute of New Energy Technology, College of Information Science and Technology, Jinan University
Yousheng Wang: Institute of New Energy Technology, College of Information Science and Technology, Jinan University
Qiaoyan Ma: Institute of New Energy Technology, College of Information Science and Technology, Jinan University
Zixuan Wang: Institute of New Energy Technology, College of Information Science and Technology, Jinan University
Zigan Yang: Institute of New Energy Technology, College of Information Science and Technology, Jinan University
Meixiu Wan: Institute of New Energy Technology, College of Information Science and Technology, Jinan University
Tahmineh Mahmoudi: School of Semiconductor and Chemical Engineering, Solar Energy Research Center, Jeonbuk National University
Yoon-Bong Hahn: School of Semiconductor and Chemical Engineering, Solar Energy Research Center, Jeonbuk National University
Yaohua Mai: Institute of New Energy Technology, College of Information Science and Technology, Jinan University

DOI: https://doi.org/10.1007/s40820-023-01088-4
Journal volume & issue: Vol. 15, no. 1
pp. 1 – 13

Abstract

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Highlights A graded inverted solar cell configuration is developed by hole-transport management aiming to suppress interface defects-induced non-radiative recombination for efficient hole transport. NiO x -based inverted PSCs present a power-conversion-efficiency over 23% with a high fill factor of 0.84 and open-circuit voltage of 1.162 volts, one of the best performances reported so far for 1.56-electron volt bandgap formamidinium-based triple-halide perovskites. Devices show high operational stability over 1,200 h during T90 lifetime measurement under 1-sun illumination in ambient-air conditions.

Published in Nano-Micro Letters

ISSN: 2311-6706 (Print); 2150-5551 (Online)
Publisher: SpringerOpen
Country of publisher: Germany
LCC subjects: Technology
Website: http://www.springer.com/40820

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