协同配体介导阴离子交换的 CsPbI3 量子点用于高性能白光 LED 和防伪

IF 10.7 Q1 CHEMISTRY, PHYSICAL EcoMat Pub Date : 2024-03-05 DOI:10.1002/eom2.12439
Yajing Chang, Guoqing Tong, Liping Liu, Junchun Li, Jingting Yang, Zongsheng Chen, Zhigang Li, Shaobo Zhang, Ru Zhou, Yang Jiang
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引用次数: 0

摘要

阴离子交换是调节包晶量子点(PQDs)成分和光电特性的有效策略。尽管前景广阔,但合成 PQDs 时更需要避免光致发光量子产率(PLQY)的降低。在此,我们开发了一种配体介导的阴离子交换方法,在 CsPbBr3 QDs 溶液中引入 N-乙酰基-半胱氨酸(NAC)和 1,3-二甲基碘化咪唑鎓(DMII)水溶液,观察到 CsPbBr3 QDs 向 CsPbI3 QDs 的相变。NAC 可望在 CsPbBr3 QDs 中产生更多的卤素空位,从而为 I 离子提供足够的吸附位点,加快 DMII 加入过程中的阴离子交换速率。得益于配体介导阴离子交换的协同作用,CsPbI3 QDs 获得了高达 97% 的 PLQY 和显著的稳定性。此外,还构建了一种白光发光二极管(WLED),其流明效率(LE)为 116.82 lm/W,并在连续工作条件下显示出显著的稳定性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Synergistic ligand mediated anion exchange of CsPbI3 quantum dots for high performance white LED and anti-counterfeiting

Anion exchange is an effective strategy to regulate the composition and optoelectronic properties of perovskite quantum dots (PQDs). Though promising, it is more desirable to synthesize PQDs to avoid the decrease of photoluminescence quantum yield (PLQY). Herein, we developed a ligand mediated anion exchange approach, in which the phase transition from CsPbBr3 QDs to CsPbI3 QDs was observed with the introduction of N-Acetyl-l-cysteine (NAC) and 1,3-dimethylimidazolium iodide (DMII) aqueous solution in CsPbBr3 QDs solution. NAC is expected to create more halogen vacancies in CsPbBr3 QDs, which provides sufficient adsorption sites for I ions, resulting in accelerating the anion exchange rate in the process of DMII incorporation. Benefiting from the synergistic ligand mediated anion exchange, high PLQY of 97% and remarkable stability of CsPbI3 QDs are obtained. Furthermore, a white light-emitting diode (WLED) with a lumen efficiency (LE) of 116.82 lm/W is constructed, showing remarkable stability under continuous operation.

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来源期刊
CiteScore
17.30
自引率
0.00%
发文量
0
审稿时长
4 weeks
期刊最新文献
Cover Image Issue Information PTAA-infiltrated thin-walled carbon nanotube electrode with hidden encapsulation for perovskite solar cells Halogen-free solvent processed organic solar sub-modules (≈55 cm2) with 14.70% efficiency by controlling the morphology of alkyl chain engineered polymer donor Minimizing voltage losses in Sn perovskite solar cells by Cs2SnI6 passivation
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