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Full-color, time-valve controllable and Janus-type long-persistent luminescence from all-inorganic halide perovskites

Author

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  • Tianhong Chen

    (Beijing Normal University)

  • Dongpeng Yan

    (Beijing Normal University)

Abstract

Long persistent luminescence (LPL) has gained considerable attention for the applications in decoration, emergency signage, information encryption and biomedicine. However, recently developed LPL materials – encompassing inorganics, organics and inorganic-organic hybrids – often display monochromatic afterglow with limited functionality. Furthermore, triplet exciton-based phosphors are prone to thermal quenching, significantly restricting their high emission efficiency. Here, we show a straightforward wet-chemistry approach for fabricating multimode LPL materials by introducing both anion (Br−) and cation (Sn2+) doping into hexagonal CsCdCl3 all-inorganic perovskites. This process involves establishing new trapping centers from [CdCl6-nBrn]4− and/or [Sn2-nCdnCl9]5− linker units, disrupting the local symmetry in the host framework. These halide perovskites demonstrate afterglow duration time ( > 2,000 s), nearly full-color coverage, high photoluminescence quantum yield ( ~ 84.47%), and the anti-thermal quenching temperature up to 377 K. Particularly, CsCdCl3:x%Br display temperature-dependent LPL and time-valve controllable time-dependent luminescence, while CsCdCl3:x%Sn exhibit forward and reverse excitation-dependent Janus-type luminescence. Combining both experimental and computational studies, this finding not only introduces a local-symmetry breaking strategy for simultaneously enhancing afterglow lifetime and efficiency, but also provides new insights into the multimode LPL materials with dynamic tunability for applications in luminescence, photonics, high-security anti-counterfeiting and information storage.

Suggested Citation

  • Tianhong Chen & Dongpeng Yan, 2024. "Full-color, time-valve controllable and Janus-type long-persistent luminescence from all-inorganic halide perovskites," Nature Communications, Nature, vol. 15(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-49654-7
    DOI: 10.1038/s41467-024-49654-7
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    References listed on IDEAS

    as
    1. Shuya Liu & Xiaoyu Fang & Bo Lu & Dongpeng Yan, 2020. "Wide range zero-thermal-quenching ultralong phosphorescence from zero-dimensional metal halide hybrids," Nature Communications, Nature, vol. 11(1), pages 1-9, December.
    2. Tianju Zhang & Chaocheng Zhou & Xuezhen Feng & Ningning Dong & Hong Chen & Xianfeng Chen & Long Zhang & Jia Lin & Jun Wang, 2022. "Regulation of the luminescence mechanism of two-dimensional tin halide perovskites," Nature Communications, Nature, vol. 13(1), pages 1-11, December.
    3. Xiangyu Ou & Xian Qin & Bolong Huang & Jie Zan & Qinxia Wu & Zhongzhu Hong & Lili Xie & Hongyu Bian & Zhigao Yi & Xiaofeng Chen & Yiming Wu & Xiaorong Song & Juan Li & Qiushui Chen & Huanghao Yang & X, 2021. "High-resolution X-ray luminescence extension imaging," Nature, Nature, vol. 590(7846), pages 410-415, February.
    4. Keliang Wan & Bing Tian & Yingxiang Zhai & Yuxuan Liu & He Wang & Shouxin Liu & Shujun Li & Wenpeng Ye & Zhongfu An & Changzhi Li & Jian Li & Tony D. James & Zhijun Chen, 2022. "Structural materials with afterglow room temperature phosphorescence activated by lignin oxidation," Nature Communications, Nature, vol. 13(1), pages 1-7, December.
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