The role of heavy atom effect in regulating multiple-resonance and thermally activated delayed fluorescence features: A theoretical perspective

IF 2 3区化学 Q4 CHEMISTRY, PHYSICAL

Chemical Physics Pub Date : 2025-01-17 DOI:10.1016/j.chemphys.2025.112611

Xuelu Yang , Songsong Liu , Yang Gao , Lili Lin , Chuan-Kui Wang , Jianzhong Fan , Yuzhi Song

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Abstract

Multiple-resonance thermally activated delayed fluorescence (MR-TADF) emitters with high efficiency and narrowband emission characteristics have shown wide applications in organic light-emitting diodes. However, MR-TADF emitters usually exhibit slow reverse intersystem crossing (RISC) rates, the amount and species of efficient MR-TADF emitters are limited, corresponding structure–property relationship needs to be clarified. Herein, based on density functional theory, time-dependent density functional theory and SCS-ADC(2) method, five reported MR-TADF molecules (CzBO, CzBS, CzBSe, Cz-PTZ-BN and BN-Se) are adopted and their photophysical properties are studied by thermal vibration correlation function (TVCF) method, the heavy atom effect on increasing spin–orbit coupling (SOC) and thus accelerating RISC process is elucidated. Based on this strategy with π-conjugated extension of MR unit, four new molecules (wBN-O, wCz-PTZ-BN, wBN-Se and BN-O) are theoretically proposed and their full-width at half-maximum (FWHM) values and excited decay rates are calculated. Results indicate that all studied molecules possess small energy gaps (ΔE_ST) between S₁ and T₁, and they are corresponding well with experimental values. In addition, large SOC constants are determined for designed molecules, remarkable RISC processes are realized and TADF features can be expected. Moreover, the large planarity for studied molecules brings small FWHM value with decreased reorganization energies and restricted geometry changes between S₁ and ground state (S₀). However, the ΔE_ST values for large planarity molecules are increased and insufficient RISC processes are determined. Thus, the relationship between efficient RISC process with large SOC values and narrowband emission with small FWHM values should be carefully balanced by wise molecular design strategy. This work illustrates the key physical parameters in regulating FWHM values and TADF properties, which could pave the way for the development of efficient MR TADF molecules.

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重原子效应在调节多重共振和热激活延迟荧光特性中的作用：一个理论观点

多共振热激活延迟荧光（MR-TADF）具有高效率和窄带发射特性，在有机发光二极管中有着广泛的应用。然而，MR-TADF发射体通常表现出缓慢的反向系统间交叉（RISC）速率，高效MR-TADF发射体的数量和种类有限，其结构-性质关系需要澄清。本文基于密度泛函理论、时变密度泛函理论和SCS-ADC(2)方法，采用已报道的5种MR-TADF分子（CzBO、CzBS、CzBSe、Cz-PTZ-BN和BN-Se），通过热振动相关函数（TVCF）方法研究了它们的光物理性质，阐明了重原子对增加自旋轨道耦合（SOC）从而加速RISC过程的作用。基于这种MR单元π共轭扩展策略，从理论上提出了4种新分子（wBN-O、wCz-PTZ-BN、wBN-Se和BN-O），并计算了它们的半最大值全宽度（FWHM）值和激发衰变率。结果表明，所研究的分子在S1和T1之间具有较小的能隙（ΔEST），与实验值吻合较好。此外，确定了设计分子的大SOC常数，实现了显着的RISC过程，并且可以预期TADF特征。此外，所研究分子的大平面度带来了较小的FWHM值，重组能降低，S1和基态（S0）之间的几何变化受到限制。然而，对于大平面分子，ΔEST值会增加，并确定RISC过程不足。因此，高SOC值的高效RISC工艺与低FWHM值的窄带发射之间的关系应通过明智的分子设计策略加以平衡。这项工作阐明了调节FWHM值和TADF性质的关键物理参数，这可能为开发高效的MR TADF分子铺平道路。

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来源期刊

Chemical Physics 化学-物理：原子、分子和化学物理

CiteScore

4.60

自引率

4.30%

发文量

278

审稿时长

39 days

期刊介绍： Chemical Physics publishes experimental and theoretical papers on all aspects of chemical physics. In this journal, experiments are related to theory, and in turn theoretical papers are related to present or future experiments. Subjects covered include: spectroscopy and molecular structure, interacting systems, relaxation phenomena, biological systems, materials, fundamental problems in molecular reactivity, molecular quantum theory and statistical mechanics. Computational chemistry studies of routine character are not appropriate for this journal.