系统间交叉
激发态
荧光
光化学
激子
超快激光光谱学
单重态
光致发光
量子产额
单重态裂变
三重态
化学
谱线
材料科学
光电子学
原子物理学
物理
光学
光谱学
量子力学
天文
作者
Fangming Zhao,Jie Kong,Wei Zhang,Zhuoran Kuang,Meng Zhou
标识
DOI:10.1021/acs.jpclett.4c00145
摘要
The "hot exciton" thermally activated delayed fluorescence (TADF) materials have attracted considerable research interest for their utilization of high-lying triplet excitons. In this work, we reported the mechanism of photoluminescence by revealing the spectral evolution from singlet to triplet states in "hot exciton" TADF molecules by transient absorption (TA) spectra and triplet sensitization experiments. The internal conversion and intersystem crossing are much faster than reverse intersystem crossing (RISC), so that high-lying triplet states (Tn) are difficult to accumulate to be observed in the transient absorption spectra. In contrast, the emergence of delayed fluorescence in time-resolved emission spectra demonstrates the existence of a high-lying RISC process (hRISC) from Tn to S1. Triplet sensitization experiments successfully identified the spectral features of the T1 state in the TA spectra. This work sheds light on critical factors for the systematic design of these materials to achieve a high emission quantum yield.
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