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Ultraviolet-Resistant Flexible Perovskite Solar Cells with Enhanced Efficiency Through Attachable Nanophotonic Downshifting and Light Trapping

Authors
Kim, Jae-WonKim, SujiLee, Na-KyungCho, Ha-EunPark, Seung JunKim, Jae-HyunLee, NohyunKim, Sun-KyungCho, Seok HoLee, Sung-Min
Issue Date
Jun-2025
Publisher
Wiley - V C H Verlag GmbbH & Co.
Keywords
downshifting; flexible solar cells; nanostructured photonic sticker; perovskite solar cells; ultraviolet stability
Citation
Small, v.21, no.24, pp 1 - 10
Pages
10
Indexed
SCIE
SCOPUS
Journal Title
Small
Volume
21
Number
24
Start Page
1
End Page
10
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/208619
DOI
10.1002/smll.202501374
ISSN
1613-6810
1613-6829
Abstract
Despite the many promising properties of perovskite solar cells (PSCs), ultraviolet (UV)-induced degradation remains a critical issue for their long-term reliability. One potential solution is the selective inhibition of UV exposure before it reaches the PSCs; however, this approach leads to a reduction in PSC efficiency due to limited photon utilization. In this regard, here a universally applicable method is presented to address the UV stability issue of PSCs without compromising their high-level efficiency while also providing device flexibility. A UV-absorbing colorless polyimide (CPI) substrate serves as a flexible protective shield against UV illumination. The photocurrent loss in CPI-based PSCs is mitigated by a nanostructured photonic sticker that incorporates a UV-to-visible downshifting medium, which can be easily integrated with the fabricated PSC substrate. Through the combined effects of downshifting and synergistic light trapping, the efficiency of UV-resistant CPI-based PSCs is improved from 18.6% to 20.4%, making it comparable to the performance of UV-damageable glass-based PSCs. Together with numerical modeling, various experimental characterizations of optical and photovoltaic properties, as well as stability assessments under UV, bending, and off-normal incidence conditions, provide insights into the underlying physical phenomena and optimal design considerations for successful application.
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