Improving Photophysical Properties of Deazaflavin Derivatives by Acrylaldehyde Bridging: A Theoretical Investigation

IF 3 4区 化学 Q3 CHEMISTRY, PHYSICAL ChemPhotoChem Pub Date : 2024-06-10 DOI:10.1002/cptc.202400053
Dr. Huimin Guo, Siyu Liu, Dr. Xin Liu, Prof. Dr. Jianzhang Zhao
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Abstract

The electronic structure and photophysical properties of several acrylaldehyde-bridged deazaflavin derivatives (cFLs) were investigated theoretically. The impact of acrylaldehyde bridging on photophysical properties of deazaflavin (cFL) is strongly site-dependent. Specifically, the change of adiabatic energy of electronic transitions(ΔEad) and vibronic coupling promote fluorescent emission to be comparable to internal conversion of cFL and cFL4 (both C5−C6 and C9−N10 bridged, but C9−N10 bridged by propene), turning them eligible as fluorescent sensors. As El-Sayed's rule is satisfied in cFL1(C5−C6 bridged), cFL2(C9−N10 bridged) and cFL3(both C5−C6 and C9−N10 bridged), intersystem crossing from first singlet excited state to triplet excited states (Tn) become dominant and the evolution of excited cFLs from T1 appears vital. The rate constants of photophysical processes indicate these cFLs are of dominantly high steady state T1 concentration and are potential triplet sensitizers. We expect the findings would pave the way for rational design of novel cFLs with extraordinary photophysical properties.

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通过丙烯醛桥接改善去氮黄素衍生物的光物理特性:理论研究
我们从理论上研究了几种丙烯醛桥接的去氮黄素衍生物(cFLs)的电子结构和光物理性质。丙烯醛桥接对去氮黄素(cFL)光物理性质的影响具有很强的位点依赖性。具体来说,电子跃迁绝热能(ΔEad)和振子耦合的变化促使荧光发射与 cFL 和 cFL4(均为 C5-C6 和 C9-N10 桥接,但 C9-N10 由丙烯桥接)的内部转换相当,从而使它们成为合格的荧光传感器。由于 cFL1(C5-C6 桥接)、cFL2(C9-N10 桥接)和 cFL3(C5-C6 和 C9-N10 桥接)符合 El-Sayed 规则,从第一单激发态到三重激发态(Tn)的系统间交叉成为主导,因此从 T1 开始的激发 cFL 演化显得至关重要。光物理过程的速率常数表明,这些 cFLs 的稳态 T1 浓度很高,是潜在的三重态敏化剂。我们希望这些发现能为合理设计具有非凡光物理性质的新型 cFL 铺平道路。
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来源期刊
ChemPhotoChem
ChemPhotoChem Chemistry-Physical and Theoretical Chemistry
CiteScore
5.80
自引率
5.40%
发文量
165
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