分子内力
荧光
化学
紧身衣
密度泛函理论
光化学
含时密度泛函理论
亮度
材料科学
计算化学
有机化学
光学
物理
作者
Chao Wang,Qinglong Qiao,Weijie Chi,Jie Chen,Wenjuan Liu,Davin Tan,Scott McKechnie,Da Lyu,Xiaofang Jiang,Wei Zhou,Ning Xu,Qisheng Zhang,Zhaochao Xu,Xiaogang Liu
标识
DOI:10.1002/anie.201916357
摘要
Inhibition of TICT can significantly increase the brightness of fluorescent materials. Accurate prediction of TICT is thus critical for the quantitative design of high-performance fluorophores and AIEgens. TICT of 14 types of popular organic fluorophores were modeled with time-dependent density functional theory (TD-DFT). A reliable and generalizable computational approach for modeling TICT formations was established. To demonstrate the prediction power of our approach, we quantitatively designed a boron dipyrromethene (BODIPY)-based AIEgen which exhibits (almost) barrierless TICT rotations in monomers. Subsequent experiments validated our molecular design and showed that the aggregation of this compound turns on bright emissions with ca. 27-fold fluorescence enhancement, as TICT formation is inhibited in molecular aggregates.
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