酸性水纳米液滴的非线性光谱揭示水合质子振动的本质

Nature of hydrated proton vibrations revealed by nonlinear spectroscopy of acid water nanodroplets.

作者信息

Sofronov Oleksandr O, Bakker Huib J

机构信息

AMOLF, Science Park 104, 1098 XG Amsterdam, The Netherlands.

出版信息

Phys Chem Chem Phys. 2020 Sep 30;22(37):21334-21339. doi: 10.1039/d0cp03137b.

DOI:10.1039/d0cp03137b

PMID:32936152

Abstract

We use polarization-resolved femtosecond pump-probe spectroscopy to investigate the vibrations of hydrated protons in anionic (AOT) and cationic (CTAB/hexanol) reverse micelles in the frequency range 2000-3500 cm-1. For small AOT micelles the dominant proton hydration structure consists of H3O+ with two OH groups donating hydrogen bonds to water molecules, and one OH group donating a weaker hydrogen bond to sulfonate. For cationic reverse micelles, we find that the absorption at frequencies >2500 cm-1 is dominated by asymmetric proton-hydration structures in which one of the OH groups of H3O+ is more weakly hydrogen-bonded to water than the other two OH groups.

摘要

我们使用偏振分辨飞秒泵浦-探测光谱技术，研究了频率范围在2000-3500 cm-1内阴离子型（AOT）和阳离子型（CTAB/己醇）反胶束中水合质子的振动情况。对于小尺寸的AOT胶束，主要的质子水合结构由H3O+组成，其中两个OH基团向水分子提供氢键，一个OH基团向磺酸根提供较弱的氢键。对于阳离子反胶束，我们发现频率>2500 cm-1处的吸收主要由不对称质子水合结构主导，其中H3O+的一个OH基团与水形成的氢键比另外两个OH基团与水形成的氢键更弱。

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酸性水纳米液滴的非线性光谱揭示水合质子振动的本质

Nature of hydrated proton vibrations revealed by nonlinear spectroscopy of acid water nanodroplets.

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