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W4310112150 endingPage "20738" @default.
W4310112150 startingPage "20728" @default.
W4310112150 abstract "Polymer-based organic afterglow materials exhibit excellent flexibility and mechanical properties, whereas their afterglow mainly follows a phosphorescence mechanism with limited afterglow efficiency. Here, we report polymer-based TADF-type afterglow materials, which feature a moderate rate of reverse intersystem crossing of 1–10 s–1 to harvest triplet energies and consequently possess an afterglow efficiency of >80%. By doping a specific difluoroboron diketonate dye into polymer matrices, various polymer-based afterglow materials have been obtained. In particular, afterglow elastomers, which have been rarely reported, have also been achieved with a high efficiency of 50% and a long lifetime of 0.19 s. Variable temperature-delayed emission studies and TD-DFT calculations have been performed to support the TADF afterglow mechanism. This study would pave the way for highly efficient polymer-based organic afterglow materials and their promising applications in diverse areas." @default.
W4310112150 created "2022-11-30" @default.
W4310112150 creator A5012250274 @default.
W4310112150 creator A5012669482 @default.
W4310112150 creator A5024433530 @default.
W4310112150 creator A5050196643 @default.
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W4310112150 creator A5055919108 @default.
W4310112150 creator A5056916011 @default.
W4310112150 creator A5061592533 @default.
W4310112150 creator A5090386207 @default.
W4310112150 date "2022-11-28" @default.
W4310112150 modified "2023-10-17" @default.
W4310112150 title "Polymer-Based TADF-Type Organic Afterglow" @default.
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W4310112150 doi "https://doi.org/10.1021/acs.jpcc.2c07499" @default.
W4310112150 hasPublicationYear "2022" @default.