Excimer formation and evolution of excited state properties in discrete dimeric stacking of an anthracene derivative: a computational investigation

准分子 激发态 二聚体 密度泛函理论 光化学 材料科学 荧光 堆积 分子物理学 苯并恶唑 单体 化学 化学物理 原子物理学 计算化学 光学 聚合物 物理 有机化学 复合材料
作者
Yu Gao,Haichao Liu,Shitong Zhang,Qiang Gu,Yue Shen,Yunpeng Ge,Bing Yang
出处
期刊:Physical Chemistry Chemical Physics [Royal Society of Chemistry]
卷期号:20 (17): 12129-12137 被引量:111
标识
DOI:10.1039/c8cp00834e
摘要

Herein, density functional theory (DFT) computations were performed to investigate the discrete dimer of a mono-substituted anthracene derivative (2-TA-AN), which exhibited highly efficient pure excimer fluorescence in its crystal form. As a more practical model, its geometry, potential energy curve and excited state property were systematically calculated to better understand the excimer formation process and photophysical properties. The compressed excimer geometry is responsible for the highly efficient excimer emission, arising from the enhanced rigidity that greatly suppresses its non-radiative vibrations. Potential energy curves along three directions reveal the non-uniqueness of excimer formation along the long axis of anthracene, which is in a good agreement with the experimental findings. Upon decreasing the displacement, the intermonomer charge-transfer (CT) component gradually increased towards an approximately equivalent hybridization with the locally-emissive (LE) state of the monomer during the formation of the excimer. The excimer emission wavelength versus intermonomer CT content shows a similar trend along the three directions, revealing a turning point related to the essential transition of the excited state properties from the LE of the monomer to the HLCT of the excimer. The present results will contribute to the better understanding of the structure-property relationships in excimer formation and photophysical properties.
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