Planar defect-free pure red perovskite light-emitting diodes via metastable phase crystallization

Solution-processable all-inorganic CsPbI Br perovskite holds great potential for pure red light-emitting diodes. However, the widely existing defects in this mixed halide perovskite markedly limit the efficiency and stability of present light-emitting diode devices. We here identify that intragrain...

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Bibliographic Details
Published in:Science advances 2022-11, Vol.8 (45), p.eabq2321-eabq2321
Main Authors: Song, Yong-Hui, Ge, Jing, Mao, Li-Bo, Wang, Kun-Hua, Tai, Xiao-Lin, Zhang, Qian, Tang, Le, Hao, Jing-Ming, Yao, Ji-Song, Wang, Jing-Jing, Ma, Tao, Yang, Jun-Nan, Lan, Yi-Feng, Ru, Xue-Chen, Feng, Li-Zhe, Zhang, Guozhen, Lin, Yue, Zhang, Qun, Yao, Hong-Bin
Format: Article
Language:English
Subjects:
Applied Sciences and Engineering
Physical and Materials Sciences
Physical Sciences
SciAdv r-articles
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Summary:Solution-processable all-inorganic CsPbI Br perovskite holds great potential for pure red light-emitting diodes. However, the widely existing defects in this mixed halide perovskite markedly limit the efficiency and stability of present light-emitting diode devices. We here identify that intragrain Ruddlesden-Popper planar defects are primary forms of such defects in the CsPbI Br thin film owing to the lattice strain caused by inhomogeneous halogen ion distribution. To eliminate these defects, we develop a stepwise metastable phase crystallization strategy to minimize the CsPbI Br perovskite lattice strain, which brings planar defect-free CsPbI Br thin film with improved radiative recombination, narrowed emission band, and enhanced spectral stability. Using these high-quality thin films, we fabricate spectrally stable pure red perovskite light-emitting diodes, showing 17.8% external quantum efficiency and 9000 candela meter brightness with color coordinates required by Rec. 2020.
ISSN:2375-2548
2375-2548
DOI:10.1126/sciadv.abq2321