面向高效白光发射钙钛矿的分子工程

Molecular engineering towards efficientwhite-light-emitting perovskite.

作者信息

Zhang Mingming, Zhao Lili, Xie Jiahao, Zhang Qian, Wang Xiaoyu, Yaqoob Najma, Yin Zhengmao, Kaghazchi Payam, Zhang San, Li Hua, Zhang Chunfeng, Wang Lei, Zhang Lijun, Xu Weigao, Xing Jun

机构信息

Key Laboratory of Eco-Chemical Engineering, Ministry of Education, College of Chemistry and Molecular Engineering, Qingdao University of Science & Technology, Qingdao, China.

Key Laboratory of Mesoscopic Chemistry, Ministry of Education, School of Chemistry and Chemical Engineering, Nanjing University, Nanjing, China.

出版信息

Nat Commun. 2021 Aug 12;12(1):4890. doi: 10.1038/s41467-021-25132-2.

DOI:10.1038/s41467-021-25132-2

PMID:34385451

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8361204/

Abstract

Low-dimensional hybrid perovskites have demonstrated excellent performance as white-light emitters. The broadband white emission originates from self-trapped excitons (STEs). Since the mechanism of STEs formation in perovskites is still not clear, preparing new low-dimensional white perovskites relies mostly on screening lots of intercalated organic molecules rather than rational design. Here, we report an atom-substituting strategy to trigger STEs formation in layered perovskites. Halogen-substituted phenyl molecules are applied to synthesize perovskite crystals. The halogen-substituents will withdraw electrons from the branched chain (-R-NH) of the phenyl molecule. This will result in positive charge accumulation on -R-NH, and thus stronger Coulomb force of bond (-R-NH)-(PbBr), which facilitates excitons self-trapping. Our designed white perovskites exhibit photoluminescence quantum yield of 32%, color-rendering index of near 90 and chromaticity coordinates close to standard white-light. Our joint experiment-theory study provides insights into the STEs formation in perovskites and will benefit tailoring white perovskites with boosting performance.

摘要

低维混合钙钛矿已展现出作为白光发射体的优异性能。宽带白色发射源自自陷激子（STE）。由于钙钛矿中STE形成的机制仍不明确，制备新型低维白色钙钛矿主要依赖于筛选大量插层有机分子，而非合理设计。在此，我们报道一种原子取代策略，以触发层状钙钛矿中STE的形成。应用卤代苯基分子来合成钙钛矿晶体。卤代取代基会从苯基分子的支链（-R-NH）上吸电子。这将导致-R-NH上的正电荷积累，进而增强键（-R-NH）-（PbBr）的库仑力，这有利于激子自陷。我们设计的白色钙钛矿展现出32%的光致发光量子产率、近90的显色指数以及接近标准白光的色度坐标。我们的联合实验-理论研究为钙钛矿中STE的形成提供了见解，并将有助于通过提升性能来定制白色钙钛矿。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bad6/8361204/7e5f2370653a/41467_2021_25132_Fig1_HTML.jpg

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面向高效白光发射钙钛矿的分子工程

Molecular engineering towards efficientwhite-light-emitting perovskite.

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