Rouillon Jean, Monnereau Cyrille, Andraud Chantal
UMR 5182, Laboratoire de Chimie, Univ Lyon, ENS Lyon, CNRS, Université Claude Bernard Lyon 1, 69342, Lyon, France.
Chemistry. 2021 May 26;27(30):8003-8007. doi: 10.1002/chem.202100926. Epub 2021 Apr 22.
Although tetraphenylethylene (TPE) and its derivatives have been the most commonly used building blocks in the construction of molecules with aggregation-induced emission (AIE) properties, no absolute consensus exists regarding the mechanisms at the origin of the phenomenon. Restriction of intramolecular rotations (RIR) of peripheral phenyls has historically been a dominant paradigm, which has served as a valuable guideline in the molecular engineering of AIEgens. Yet, an increasing number of recent works have established that photoisomerization or photocyclization may actively participate in the nonradiative dissipation of the excitation energy. In this paper, the first experimental evaluation of the quantum efficiencies of these different processes is reported, and photoisomerization is shown to be by far the dominant photophysical pathway in solution, accounting for virtually all nonradiative decay of the molecule's excited state in degassed solution.
尽管四苯乙烯(TPE)及其衍生物一直是构建具有聚集诱导发光(AIE)特性分子时最常用的结构单元,但对于该现象背后的机制尚未达成绝对共识。外围苯基的分子内旋转受限(RIR)一直是一个主导范例,它在AIEgens的分子工程中起到了宝贵的指导作用。然而,最近越来越多的研究表明,光异构化或光环化可能积极参与激发能量的非辐射耗散。本文报道了对这些不同过程量子效率的首次实验评估,结果表明光异构化是溶液中迄今为止占主导地位的光物理途径,在脱气溶液中几乎占了分子激发态所有的非辐射衰变。
