Computational Approach to the Study of Acidochromic Properties of Donor-π-Acceptor Systems Based on Dimethylamino-Substituted Dyes With Intramolecular Charge Transfer

IF 2.3 3区 化学 Q3 CHEMISTRY, PHYSICAL International Journal of Quantum Chemistry Pub Date : 2024-09-26 DOI:10.1002/qua.27488
Evgeny Mediantsev, Nikita Dubinets, Natalia Lobova
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Abstract

This work is devoted to the study of the influence of protonation on the photophysical properties of dimethylamino-substituted styryl dyes. The formation of a bond on the unshared nitrogen electron pair involved in conjugation with the dye chromophore changes the mobility of the terminal group of the donor fragment and thereby “switches” the molecule from n-π* to π-π* mode. The correlations found between changes in the electron density of the dye in native form and during protonation and changes in its properties contribute to the study of the ground and excited states of these compounds and the energy transitions between them. Comparison with analog compounds and consideration of vibronic effects allow us to evaluate the potential advantages and limitations of the TD-DFT method in the calculation of electronic transitions in styryl dyes. The work contributes to the understanding of the influence of protonation on the behavior of dyes with a nitrogen atom in the donor part of the chromophore of the molecule. The patterns found can be applied to similar chromophore systems.

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基于分子内电荷转移的二甲基氨基取代染料的供体-π-受体系统酸性变色特性的计算方法研究
这项工作致力于研究质子化对二甲基氨基取代苯乙烯基染料光物理特性的影响。与染料发色团共轭的非共用氮电子对上形成的键改变了供体片段末端基团的迁移率,从而将分子从 n-π* 模式 "切换 "到 π-π* 模式。原生态染料和质子化过程中染料电子密度的变化与其性质变化之间的相关性有助于研究这些化合物的基态和激发态以及它们之间的能量转换。通过与类似化合物的比较以及对振子效应的考虑,我们可以评估 TD-DFT 方法在计算苯乙烯基染料电子跃迁方面的潜在优势和局限性。这项研究有助于理解质子化对分子发色团供体部分含有氮原子的染料行为的影响。发现的模式可应用于类似的发色团系统。
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来源期刊
International Journal of Quantum Chemistry
International Journal of Quantum Chemistry 化学-数学跨学科应用
CiteScore
4.70
自引率
4.50%
发文量
185
审稿时长
2 months
期刊介绍: Since its first formulation quantum chemistry has provided the conceptual and terminological framework necessary to understand atoms, molecules and the condensed matter. Over the past decades synergistic advances in the methodological developments, software and hardware have transformed quantum chemistry in a truly interdisciplinary science that has expanded beyond its traditional core of molecular sciences to fields as diverse as chemistry and catalysis, biophysics, nanotechnology and material science.
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