时间分辨外差检测振动和频率产生谱的发展及其在界面动力学中的应用

Molecular Science Pub Date : 2021-01-01 DOI:10.3175/molsci.15.a0116

Ken‐ichi Inoue

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引用次数: 0

摘要

化学、电化学、生物化学和大气化学。然而，由于技术上的困难，对其界面结构和动力学的分子水平理解仍然有限。振动和频率产生(VSFG)光谱是基于二阶非线性光学过程，并提供特定于界面的信息。传统的纯差检测VSFG测量二阶非线性磁化率的平方(|χ(2) | 2)，而外差检测(HD-) VSFG使我们能够直接测量χ(2)的虚部(Im χ(2))，对应于用吸收光谱获得的Im χ(1)。我们将HD-VSFG光谱与泵浦探针技术相结合，实现了首次时间分辨(TR-) HD-VSFG测量。本文综述了TR-HD-VSFG光谱的原理及其在金属、水和脂质单层界面动力学中的应用。

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Development of Time-Resolved Heterodyne-Detected Vibrational Sum Frequency Generation Spectroscopy and Its Application to Interfacial Dynamics

chemistry, electrochemistry, biochemistry, and atmospheric chemistry. However, molecular-level understanding of structure and dynamics of their interfaces is still limited due to technical difficulties. Vibrational sum frequency generation (VSFG) spectroscopy is based on a second-order nonlinear optical process and provides interface-specific information. While conventional homodyne-detected VSFG measures the square of second-order nonlinear susceptibility ( |χ (2) | 2 ), heterodyne-detected (HD-) VSFG enables us to directly measure the imaginary part of χ (2) (Im χ (2) ), which corresponds to Im χ (1) obtained with absorption spectroscopy in bulk. We realized the first time-resolved (TR-) HD-VSFG measurement by combining HD-VSFG spectroscopy and pump-probe technique. This review introduces the principle of TR-HD-VSFG spectroscopy and its applica-tions to interfacial dynamics at the metal, water, and lipid monolayer interfaces.

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Molecular Science

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