1. Halogenated Thermally Activated Delayed Fluorescence Materials for Efficient Scintillation
- Author
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Xiao Wang, Guowei Niu, Zixing Zhou, Zhicheng Song, Ke Qin, Xiaokang Yao, Zhijian Yang, Xiaoze Wang, He Wang, Zhuang Liu, Chengzhu Yin, Huili Ma, Kang Shen, Huifang Shi, Jun Yin, Qiushui Chen, Zhongfu An, and Wei Huang
- Subjects
Science - Abstract
Organic scintillators, materials with the ability to exhibit luminescence when exposed to X-rays, have aroused increasing interest in recent years. However, the enhancement of radioluminescence and improving X-ray absorption of organic scintillators lie in the inherent dilemma, due to the waste of triplet excitons and weak X-ray absorption during scintillation. Here, we employ halogenated thermally activated delayed fluorescence materials to improve the triplet exciton utilization and X-ray absorption simultaneously, generating efficient scintillation with a low detection limit, which is one order of magnitude lower than the dosage for X-ray medical diagnostics. Through experimental study and theoretical calculation, we reveal the positive role of X-ray absorption, quantum yields of prompt fluorescence, and intersystem crossing in promoting the radioluminescence intensity. This finding offers an opportunity to design diverse types of organic scintillators and expands the applications of thermally activated delayed fluorescence.
- Published
- 2023
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