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Enhanced Efficiency and Mechanical Robustness of Flexible Perovskite Solar Cells by Using HPbI 3 Additive
Author(s) -
Jiang Nai-Rong,
Wang Yi-Fan,
Dong Qing-Feng,
Ge Cheng-Da,
Yang Zi-Qi,
Yin Da,
Liu Yue-Feng,
Bi Yan-Gang,
Feng Jing,
Sun Hong-Bo
Publication year - 2021
Publication title -
solar rrl
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.544
H-Index - 37
ISSN - 2367-198X
DOI - 10.1002/solr.202000821
Subject(s) - materials science , crystallinity , energy conversion efficiency , perovskite (structure) , robustness (evolution) , photovoltaics , nanotechnology , optoelectronics , composite material , chemical engineering , photovoltaic system , electrical engineering , chemistry , biochemistry , engineering , gene
High efficiency and mechanical stability are in great demand for commercial applications of the flexible perovskite solar cells (PSCs) in portable and wearable electronics. Herein, power conversion efficiency (PCE) and mechanical robustness of the methylammonium (MA)‐free flexible PSCs are simultaneously enhanced by incorporating a HPbI 3 additive with optimal content in the perovskite precursor solution. The HPbI 3 additive facilitates an improved morphology and crystallinity, as well as a decreased work function of the perovskite films, leading to improved device performance. As a result, PCEs of 20.1% and 18.74% are obtained for the rigid and flexible PSCs, respectively, which are among the best results for inverted MA‐free PSCs. The flexible PSCs maintain 95% and 70% of the initial PCE value after 1000 and 5000 bending cycles, respectively, at a bending radius of 4 mm. The current result reveals that using the HPbI 3 additive is a universal strategy to enhance performance of the flexible PSCs effectively and promote the development of the perovskite‐based photovoltaics.