| Literature DB >> 34532938 |
Chaomin Dong1, Xiao Wang2, Wenqi Gong1, Wenbo Ma3, Meng Zhang1, Jingjie Li1, Yuan Zhang1, Zixing Zhou1, Zhijian Yang4, Shuli Qu1, Qian Wang1, Zhu Zhao1, Guohui Yang1, Anqi Lv1, Huili Ma1, Qiushui Chen4, Huifang Shi1, Yang Michael Yang3, Zhongfu An1.
Abstract
There are few reports about purely organic phosphorescence scintillators, and the relationship between molecular structures and radioluminescence in organic scintillators is still unclear. Here, we presented isomerism strategy to study the effect of molecular structures on radioluminescence. The isomers can achieve phosphorescence efficiency of up to 22.8 % by ultraviolet irradiation. Under X-ray irradiation, both m-BA and p-BA show excellent radioluminescence, while o-BA has almost no radioluminescence. Through experimental and theoretical investigation, we found that radioluminescence was not only affected by non-radiation in emissive process, but also highly depended on the material conductivity caused by the different molecular packing. This study not only allows us to clearly understand the relationship between the molecular structures and radioluminescence, but also provides a guidance to rationally design new organic scintillators.Entities:
Keywords: conductivity; molecular packing; organic scintillator; radioluminescence; room temperature phosphorescence
Year: 2021 PMID: 34532938 DOI: 10.1002/anie.202109802
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336