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W3209235890 endingPage "2102970" @default.
W3209235890 startingPage "2102970" @default.
W3209235890 abstract "The development of simple, efficient, and biocompatible organic luminescent molecules is of great significance to the clinical transformation of biomaterials. In recent years, purely organic thermally activated delayed fluorescence (TADF) materials with an extremely small single-triplet energy gap (ΔEST ) have been considered as the most promising new-generation electroluminescence emitters, which is an enormous breakthrough in organic optoelectronics. By merits of the unique photophysical properties, high structure flexibility, and reduced health risks, such metal-free TADF luminophores have attracted tremendous attention in biomedical fields, including conventional fluorescence imaging, time-resolved imaging and sensing, and photodynamic therapy. However, there is currently no systematic summary of the TADF materials for biomedical applications, which is presented in this review. Besides a brief introduction of the major developments of TADF material, the typical TADF mechanisms and fundamental principles on design strategies of TADF molecules and nanomaterials are subsequently described. Importantly, a specific emphasis is placed on the discussion of TADF materials for various biomedical applications. Finally, the authors make a forecast of the remaining challenges and future developments. This review provides insightful perspectives and clear prospects towards the rapid development of TADF materials in biomedicine, which will be highly valuable to exploit new luminescent materials." @default.
W3209235890 created "2021-11-08" @default.
W3209235890 creator A5004629342 @default.
W3209235890 creator A5023541518 @default.
W3209235890 creator A5028928000 @default.
W3209235890 creator A5043490198 @default.
W3209235890 creator A5056564186 @default.
W3209235890 creator A5077885626 @default.
W3209235890 creator A5081639203 @default.
W3209235890 date "2021-10-27" @default.
W3209235890 modified "2023-10-12" @default.
W3209235890 title "Thermally Activated Delayed Fluorescence Material: An Emerging Class of Metal‐Free Luminophores for Biomedical Applications" @default.
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