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Ultralong organic phosphorescence from isolated molecules with repulsive interactions for multifunctional applications

Authors :
Xiaokang Yao
Huili Ma
Xiao Wang
He Wang
Qian Wang
Xin Zou
Zhicheng Song
Wenyong Jia
Yuxin Li
Yufeng Mao
Manjeet Singh
Wenpeng Ye
Jian Liang
Yanyun Zhang
Zhuang Liu
Yixiao He
Jingjie Li
Zixing Zhou
Zhu Zhao
Yuan Zhang
Guowei Niu
Chengzhu Yin
Shasha Zhang
Huifang Shi
Wei Huang
Zhongfu An
Source :
Nature communications. 13(1)
Publication Year :
2021

Abstract

Intermolecular interactions, including attractive and repulsive interactions, play a vital role in manipulating functionalization of the materials from micro to macro dimensions. Despite great success in generation of ultralong organic phosphorescence (UOP) by suppressing non-radiative transitions through attractive interactions recently, there is still no consideration of repulsive interactions on UOP. Herein, we proposed a feasible approach by introducing carboxyl groups into organic phosphors, enabling formation of the intense repulsive interactions between the isolated molecules and the matrix in rigid environment. Our experimental results show a phosphor with a record lifetime and quantum efficiency up to 3.16 s and 50.0% simultaneously in film under ambient conditions. Considering the multiple functions of the flexible films, the potential applications in anti-counterfeiting, afterglow display and visual frequency indicators were demonstrated. This finding not only outlines a fundamental principle to achieve bright organic phosphorescence in film, but also expands the potential applications of UOP materials.

Details

ISSN :
20411723
Volume :
13
Issue :
1
Database :
OpenAIRE
Journal :
Nature communications
Accession number :
edsair.doi.dedup.....206c52601f1dfe36f655fb355ceaa2d8