Substituent effects of halogens on the excited-state intermolecular proton transfer reactions.

IF 2.7 3区化学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Photochemical & Photobiological Sciences Pub Date : 2024-07-01 Epub Date: 2024-06-08 DOI:10.1007/s43630-024-00598-3

Hiroki Oyama, Yoshinobu Nishimura

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Abstract

Fluorescent aromatic urea compounds undergo excited-state intermolecular proton transfer (ESPT) in the presence of acetate anions to produce an excited state of the tautomer (T*) from the excited state of the complex (N*), resulting in dual fluorescence. Herein, we performed spectroscopic measurements of anthracen-1-yl-3-phenylurea derivatives with substituents, -CF₃, -F, or -Cl, at the p-position of the phenyl group in the presence of acetate to investigate the substituent effects on the ESPT reaction and the deactivation processes of N* and T*. Kinetic analysis showed that the reverse ESPT rate constant (k_-PT) depended on the respective substituents, suggesting that each substituent may influence the reverse ESPT process differently. In particular, since the electron-withdrawing properties of -F are estimated by the - I and + Iπ effects, it is plausible that -F has a slight electron-donating property and influences the reverse process from T* to N* in the excited state. This study shows that it is possible to control emission by selecting specific substituents in the ESPT system.

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卤素对激发态分子间质子转移反应的取代作用。

荧光芳香族脲化合物在醋酸阴离子存在下发生激发态分子间质子转移（ESPT），从复合物（N*）的激发态产生同分异构体（T*）的激发态，从而产生双重荧光。在此，我们对苯基 p 位上有取代基（-CF3、-F 或 -Cl）的蒽-1-基-3-苯基脲衍生物在醋酸盐存在下进行了光谱测量，以研究取代基对 ESPT 反应的影响以及 N* 和 T* 的失活过程。动力学分析表明，反向 ESPT 速率常数（k-PT）取决于各自的取代基，这表明每个取代基可能会对反向 ESPT 过程产生不同的影响。特别是，由于 -F 的抽电子特性是通过 - I 和 + Iπ 效应来估算的，因此 -F 具有轻微的供电子特性并影响激发态中从 T* 到 N* 的反向过程是可信的。这项研究表明，通过在 ESPT 系统中选择特定的取代基来控制发射是可能的。

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