Generation and Enhancement of Chirality-Induced Spin-Polarized Emission in 3D@1D Lead Halide Perovskites

Generation and Enhancement of Chirality-Induced Spin-Polarized Emission in 3D@1D Lead Halide Perovskites

Chiral perovskites have attracted tremendous attention to motivate the development of chiroptoelectronics, but the structural configuration supporting efficient spin-polarized emission (SPE) and optical gain has yet to be comprehensively explored. Herein, we uncover the intrinsic ground-state and ex...

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Veröffentlicht in:ACS materials letters 2024-06, Vol.6 (6), p.2186-2196
Hauptverfasser: Yao, Qian, Gu, Hao, Liu, Xiaolong, Du, Fenqi, Liang, Tongling, Song, Jiewu, Chi, Zhen, Li, Xuesong, Ma, Yusheng, Li, Zijia, Liang, Chao, He, Lintao, Wu, Kaifeng, Xing, Guichuan, Tao, Xutang
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container_end_page 2196
container_issue 6
container_start_page 2186
container_title ACS materials letters
container_volume 6
creator Yao, Qian
Gu, Hao
Liu, Xiaolong
Du, Fenqi
Liang, Tongling
Song, Jiewu
Chi, Zhen
Li, Xuesong
Ma, Yusheng
Li, Zijia
Liang, Chao
He, Lintao
Wu, Kaifeng
Xing, Guichuan
Tao, Xutang
description Chiral perovskites have attracted tremendous attention to motivate the development of chiroptoelectronics, but the structural configuration supporting efficient spin-polarized emission (SPE) and optical gain has yet to be comprehensively explored. Herein, we uncover the intrinsic ground-state and excited-state chirality in chiral 1D perovskite crystals, study excited-state chirality in mixed-halide films with suppressed signal crosstalk, and achieve and enhance chirality-triggered SPE in three dimensions (3D) embedded in one-dimensional (1D) (3D@1D) perovskites toward displays. SPE in 3D@1D perovskites was modulated by varying the 1D-to-3D molar ratios, leading to a record efficiency of 89.04% for chirality-induced optical spin polarization. It was further enhanced by stimulated emission, reducing operation temperature, and altering halide composition, resulting in a significantly boosted glum of 29.2%. These results provide an in-depth understanding of chirality-triggered SPE in high-performance optoelectronics.
doi_str_mv 10.1021/acsmaterialslett.4c00365
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