期刊
NATURE MATERIALS
卷 21, 期 2, 页码 210-+出版社
NATURE PORTFOLIO
DOI: 10.1038/s41563-021-01132-x
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资金
- National Key Research and Development Program of China [2017YFA0207700]
- Outstanding Youth Fund of Zhejiang Natural Science Foundation of China [LR18F050001]
- Natural Science Foundation of China [62074136, 61804134, 61874096]
X-ray detection relies on inorganic scintillators, but using thermally activated delayed fluorescence molecules as scintillators can significantly increase efficiency and imaging quality, showing the importance of efficient harvesting of triplet excitons under X-ray excitation.
X-ray detection, which plays an important role in medical and industrial fields, usually relies on inorganic scintillators to convert X-rays to visible photons; although several high-quantum-yield fluorescent molecules have been tested as scintillators, they are generally less efficient. High-energy radiation can ionize molecules and create secondary electrons and ions. As a result, a high fraction of triplet states is generated, which act as scintillation loss channels. Here we found that X-ray-induced triplet excitons can be exploited for emission through very rapid, thermally activated up-conversion. We report scintillators based on three thermally activated delayed fluorescence molecules with different emission bands, which showed significantly higher efficiency than conventional anthracene-based scintillators. X-ray imaging with 16.6 line pairs mm(-1) resolution was also demonstrated. These results highlight the importance of efficient and prompt harvesting of triplet excitons for efficient X-ray scintillation and radiation detection. Triplet exciton harvesting through thermally activated delayed fluorescence is shown to be effective also under X-ray excitation, increasing the efficiency and imaging quality of X-ray detectors based on organic scintillation.
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