通过“自”界面能量转移实现无金属有机材料的可逆连续颜色可调持久发光

Reversible and Continuous Color-Tunable Persistent Luminescence of Metal-Free Organic Materials by "Self"-Interface Energy Transfer.

作者信息

Mu Yingxiao, Xu Bingjia, Yang Zhan, Wen Hanhui, Yang Zhiyong, Mane Sunil Kumar Baburao, Zhao Juan, Zhang Yi, Chi Zhenguo, Tang Ben Zhong

机构信息

PCFM Lab, GDHPPC Lab, Guangdong Engineering Technology Research Center for High-Performance Organic and Polymer Photoelectric Functional Films, State Key Laboratory of Optoelectronic Material and Technologies, School of Chemistry , Sun Yat-Sen University , Guangzhou 510275 , China.

Instrumental Analysis and Research Center , Sun Yat-Sen University , Guangzhou 510275 , China.

出版信息

ACS Appl Mater Interfaces. 2020 Jan 29;12(4):5073-5080. doi: 10.1021/acsami.9b19919. Epub 2020 Jan 13.

DOI:10.1021/acsami.9b19919

PMID:31876136

Abstract

Persistent luminescence from metal-free organic materials is attractive for their ultralong exciton lifetimes. Color-tunable persistent luminescence from single-component organic materials is fascinating but still challenging. By utilizing an efficient approach of "self"-interface energy transfer (IET), the persistent luminescence color of an organic phosphor (CTXO) can be reversibly and continuously tuned by external physical stimuli. Its color circularly changes between green (lifetime = 0.24 s) and deep-yellow (lifetime = 0.10 s) when CTXO is repeatedly triggered with thermal annealing and mechanical grinding. Self-IET from the crystalline part (donor), which exhibits persistent room-temperature phosphorescence, to the amorphous part (acceptor) inside its semicrystal during these treatments is found to be the key exciton process for such novel color modulation. This also provides opportunity for designing stimuli-responsive smart materials with controlled persistent luminescence.

摘要

无金属有机材料的持续发光因其超长的激子寿命而备受关注。单一组分有机材料的颜色可调持续发光令人着迷，但仍具有挑战性。通过采用一种高效的“自”界面能量转移（IET）方法，有机磷光体（CTXO）的持续发光颜色可以通过外部物理刺激进行可逆且连续的调节。当对CTXO进行反复的热退火和机械研磨触发时，其颜色在绿色（寿命 = 0.24秒）和深黄色（寿命 = 0.10秒）之间循环变化。在这些处理过程中，从表现出持续室温磷光的晶体部分（供体）到其半晶体内部的非晶部分（受体）的自IET被发现是这种新型颜色调制的关键激子过程。这也为设计具有可控持续发光的刺激响应智能材料提供了机会。

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通过“自”界面能量转移实现无金属有机材料的可逆连续颜色可调持久发光

Reversible and Continuous Color-Tunable Persistent Luminescence of Metal-Free Organic Materials by "Self"-Interface Energy Transfer.

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