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吩噻嗪与炔烃的电化学环化反应:制备反卡莎三重发射、光敏及室温磷光材料

Electrochemical Annulation of Phenothiazines with Alkynes: Access to Anti-Kasha Triple-Emission, Light-Sensitive, and Room-Temperature Phosphorescent Materials.

作者信息

Yang Xianhui, Yang Danni, Li Bijin

机构信息

Chongqing Key Laboratory of Natural Product Synthesis and Drug Research, School of Pharmaceutical Sciences, Chongqing University, Chongqing 401331, P. R. China.

出版信息

J Am Chem Soc. 2025 Aug 20;147(33):30390-30400. doi: 10.1021/jacs.5c09956. Epub 2025 Aug 7.

DOI:10.1021/jacs.5c09956
PMID:40772540
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12372794/
Abstract

Novel anti-Kasha triple-emission materials, light-sensitive materials, and ultralong room-temperature phosphorescent materials were synthesized by an efficient electrochemical synthesis method for the first time. The experimental data and theoretical calculations demonstrate the anti-Kasha triple-emission characteristics of the phenothiazinium salts. These characteristics enable three-channel emission intensity ratio imaging for visualizing intercellular architectures and endow the ability to specifically target the mitochondria of living cells. Furthermore, the novel light-sensitive materials demonstrate a pronounced red shift upon light irradiation. Additionally, the novel phenothiazine-based ultralong room-temperature phosphorescent materials exhibit an extraordinarily long lifetime and a distinctive afterglow, highlighting significant potential for encryption applications in binary coding systems.

摘要

首次通过高效电化学合成方法合成了新型反卡莎三发射材料、光敏材料和超长室温磷光材料。实验数据和理论计算证明了吩噻嗪鎓盐的反卡莎三发射特性。这些特性实现了用于可视化细胞间结构的三通道发射强度比成像,并赋予了特异性靶向活细胞线粒体的能力。此外,新型光敏材料在光照下表现出明显的红移。此外,新型吩噻嗪基超长室温磷光材料具有极长的寿命和独特的余辉,突出了在二进制编码系统加密应用中的巨大潜力。

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