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首页> 外文期刊>Journal of Materials Chemistry, A. Materials for energy and sustainability >Ultra-stable CsPbBr3 nanocrystals with near-unity photoluminescence quantum yield via postsynthetic surface engineering
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Ultra-stable CsPbBr3 nanocrystals with near-unity photoluminescence quantum yield via postsynthetic surface engineering

机译:超稳定的CSPBBR3纳米晶体,具有近乎统一的光致发光量子产量,通过后合成表面工程

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摘要

Lead halide perovskite nanocrystals (NCs) have recently attracted intense interest as promising luminophores for optoelectronic devices. However, their extensive applications are still hampered by a high-cost synthesis method and the poor stability and low photoluminescence quantum yield (PLQY) of NCs. To address these issues, herein, a fast, room-temperature method is adopted to prepare CsPbBr3 NCs with the use of green synthetic solvents. More importantly, we explore an efficient postsynthetic dual-surface-passivation strategy of CsPbBr3 NCs with 1,3-adamantanedicarboxylic acid (ADA) and ZnBr2 ligands, which exhibits near-unity PLQY and ultra-high stability. The theoretical results show that such a remarkable performance stems from efficient passivation of the massive surface defects of CsPbBr3 with ADA and ZnBr2, suppressing the formation of surface nonradiative recombination centers. Besides, we fabricated white light-emitting diodes (WLEDs) based on essentially trap-free CsPbBr3 NCs. The optimal device exhibits a luminous efficiency of up to 68.7 lm W-1 and wide color gamut of 119% of the NTSC standard.
机译:卤化铅钙钙钛矿纳米晶体(NCS)最近吸引了激烈的兴趣作为光电器件的有前途的发光体。然而,它们的广泛应用仍然受到NCS的高成本合成方法和稳定性和低光致发光量子产量(PLQY)的差。为了解决这些问题,本文采用了快速,室温的方法来制备CSPBBR3 NCS,使用绿色合成溶剂。更重要的是,我们探讨了CSPBBR3 NCS的高效后双表面钝化策略,其中1,3-亚氨基甲基羧酸(ADA)和ZnBr2配体,其呈近乎统一的PLQY和超高稳定性。理论结果表明,这样的显着的性能从与ADA 2和ZnBr 2 CsPbBr3的大量表面缺陷有效钝化茎,抑制表面的非辐射复合中心的形成。此外,我们基于基本上陷阱的CSPBBR3 NC制造了白色发光二极管(WLED)。最佳装置表现出明亮的效率,高达68.7升的W-1和119%的NTSC标准的宽色域。

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  • 作者

    Zu Yanqing; Dai Jinfei; Li Lu; Yuan Fang; Chen Xiang; Feng Zhicun; Li Kun; Song Xiaojuan; Yun Feng; Yu Yue; Jiao Bo; Dong Hua; Hou Xun; Ju Minggang; Wu Zhaoxin;

  • 作者单位

    Xi An Jiao Tong Univ Sch Elect &

    Informat Engn Dept Elect Sci &

    Technol Xian 710049 Shaanxi Peoples R China;

    Xi An Jiao Tong Univ Sch Elect &

    Informat Engn Dept Elect Sci &

    Technol Xian 710049 Shaanxi Peoples R China;

    Xi An Jiao Tong Univ Sch Elect &

    Informat Engn Dept Elect Sci &

    Technol Xian 710049 Shaanxi Peoples R China;

    Xi An Jiao Tong Univ Sch Elect &

    Informat Engn Dept Elect Sci &

    Technol Xian 710049 Shaanxi Peoples R China;

    Northwest Univ Sch Chem Engn Xian 710069 Shaanxi Peoples R China;

    Northwest Univ Sch Chem Engn Xian 710069 Shaanxi Peoples R China;

    Xi An Jiao Tong Univ Sch Elect &

    Informat Engn Dept Elect Sci &

    Technol Xian 710049 Shaanxi Peoples R China;

    Xi An Jiao Tong Univ Sch Elect &

    Informat Engn Dept Elect Sci &

    Technol Xian 710049 Shaanxi Peoples R China;

    Xi An Jiao Tong Univ Sch Elect &

    Informat Engn Dept Elect Sci &

    Technol Xian 710049 Shaanxi Peoples R China;

    Xi An Jiao Tong Univ Sch Elect &

    Informat Engn Dept Elect Sci &

    Technol Xian 710049 Shaanxi Peoples R China;

    Xi An Jiao Tong Univ Sch Elect &

    Informat Engn Dept Elect Sci &

    Technol Xian 710049 Shaanxi Peoples R China;

    Xi An Jiao Tong Univ Sch Elect &

    Informat Engn Dept Elect Sci &

    Technol Xian 710049 Shaanxi Peoples R China;

    Xi An Jiao Tong Univ Sch Elect &

    Informat Engn Dept Elect Sci &

    Technol Xian 710049 Shaanxi Peoples R China;

    Univ Nebraska Dept Chem Lincoln NE 68588 USA;

    Xi An Jiao Tong Univ Sch Elect &

    Informat Engn Dept Elect Sci &

    Technol Xian 710049 Shaanxi Peoples R China;

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  • 中图分类 工程材料学;
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