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解开2,5-双(6-甲基-2-苯并恶唑基)苯酚中异常激发态质子转移之谜

Solving the Puzzle of Unusual Excited-State Proton Transfer in 2,5-Bis(6-methyl-2-benzoxazolyl)phenol.

作者信息

Dobkowski Jacek, Kijak Michał, Gawinkowski Sylwester, Karpiuk Elena, Pietrzak Mariusz, Sazanovich Igor V, Waluk Jacek

机构信息

Institute of Physical Chemistry, Polish Academy of Science, Kasprzaka 44/52, 01-224 Warsaw, Poland.

Faculty of Mathematics and Science, Cardinal Stefan Wyszyński University, Dewajtis 5, 01-815 Warsaw, Poland.

出版信息

J Phys Chem A. 2022 Mar 24;126(11):1823-1836. doi: 10.1021/acs.jpca.1c10030. Epub 2022 Mar 14.

DOI:10.1021/acs.jpca.1c10030
PMID:35286097
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8958588/
Abstract

2,5-Bis(6-methyl-2-benzoxazolyl)phenol () exhibits an ultrafast excited-state intramolecular proton transfer (ESIPT) when isolated in supersonic jets, whereas in condensed phases the phototautomerization is orders of magnitude slower. This unusual situation leads to nontypical photophysical characteristics: dual fluorescence is observed for in solution, whereas only a single emission, originating from the phototautomer, is detected for the ultracold isolated molecules. In order to understand the completely different behavior in the two regimes, detailed photophysical studies have been carried out. Kinetic and thermodynamic parameters of ESIPT were determined from stationary and transient picosecond absorption and emission for in different solvents in a broad temperature range. These studies were combined with time-dependent- density functional theory quantum-chemical modeling. The excited-state double-well potential for and its methyl-free analogue were calculated by applying different hybrid functionals and compared with the results obtained for another proton-transferring molecule, 2,5-bis(5-ethyl-2-benzoxazolyl)hydroquinone (). The results lead to the model that explains the difference in proton-transfer properties of in vacuum and in the condensed phase by inversion of the two lowest singlet states occurring along the PT coordinate.

摘要

2,5-双(6-甲基-2-苯并恶唑基)苯酚( )在超声速喷流中分离时表现出超快的激发态分子内质子转移(ESIPT),而在凝聚相中光互变异构则慢几个数量级。这种不寻常的情况导致了非典型的光物理特性:在溶液中观察到 的双重荧光,而对于超冷分离分子,仅检测到源自光互变异构体的单一发射。为了理解这两种状态下完全不同的行为,已经进行了详细的光物理研究。通过在宽温度范围内对不同溶剂中的 进行稳态和瞬态皮秒吸收与发射,确定了ESIPT的动力学和热力学参数。这些研究与含时密度泛函理论量子化学建模相结合。通过应用不同的杂化泛函计算了 及其无甲基类似物的激发态双阱势,并与另一个质子转移分子2,5-双(5-乙基-2-苯并恶唑基)对苯二酚( )的结果进行了比较。结果得出了一个模型,该模型通过沿质子转移(PT)坐标出现的两个最低单重态的反转来解释 在真空和凝聚相中的质子转移性质差异。

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本文引用的文献

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