Regulation of TADF and RTP Dual Emission via Internal and External Heavy-Atom Effects

Regulation of TADF and RTP Dual Emission via Internal and External Heavy-Atom Effects

Organic materials with thermally activated delayed fluorescence (TADF) and room-temperature phosphorescence (RTP) dual emission have attracted great attention in recent years, but the regulation mechanism via internal and external heavy atoms is not clear enough. Here, we carry out a systematic theo...

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Veröffentlicht in:The journal of physical chemistry letters 2024-09, Vol.15 (38), p.9787-9794
Hauptverfasser: Li, Ping, Lv, Qixin, Sun, Chengxi, Zhang, Peng, Wang, Xianjie, Yin, Chao, Pan, Yuyu, Chen, Runfeng
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Physical Insights into Materials and Molecular Properties
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container_end_page 9794
container_issue 38
container_start_page 9787
container_title The journal of physical chemistry letters
container_volume 15
creator Li, Ping
Lv, Qixin
Sun, Chengxi
Zhang, Peng
Wang, Xianjie
Yin, Chao
Pan, Yuyu
Chen, Runfeng
description Organic materials with thermally activated delayed fluorescence (TADF) and room-temperature phosphorescence (RTP) dual emission have attracted great attention in recent years, but the regulation mechanism via internal and external heavy atoms is not clear enough. Here, we carry out a systematic theoretical investigation on the photophysical properties of the materials by introducing aliphatic or aromatic bromine atoms. The molecule with aromatic bromine atoms exhibits obvious TADF owing to the effective reverse intersystem crossing (RISC) with matchable energy levels and enhanced spin orbit couplings, the molecule with aliphatic bromine atoms shows a long RTP lifetime because of the reduced nonradiative transition of triplet excitons, and the molecule with both aliphatic and aromatic bromine atoms presents balanced TADF and RTP emissions thanks to the synergy internal and external heavy-atom effects. Besides, the internal and external heavy atoms induce multisite intermolecular interactions, effectively suppressing the nonradiative process in the solid phase. The efficient RISC process and the suppressed nonradiative process of triplet excitons should be key to regulating the dual emission property. These findings and insights are of great importance for revealing the structure–performance relationship, providing theoretical guidance for the design of TADF and RTP dual emission molecules via internal and external heavy-atom effects.
doi_str_mv 10.1021/acs.jpclett.4c02282
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title Regulation of TADF and RTP Dual Emission via Internal and External Heavy-Atom Effects
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