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Polarization Dependent Time-Resolved Infrared Spectroscopy and Its Applications
Wen-kai Zhang
Author NameAffiliationE-mail
Wen-kai Zhang Center for Advanced Quantum Studies, Department of Physics, Beijing Normal University, Beijing 100875, China wkzhang@bnu.edu.cn 
Abstract:
Polarization dependent time-resolved infrared (TRIR) spectroscopy has proven to be a useful technique to study the structural dynamics in a photochemical process. The angular information of transient species is obtainable in this measurement, which makes it a valuable technique for the investigation of electron distribution, molecular structure, and conformational dynamics. In this review, we briefly introduce the principles and applications of polarization dependent TRIR spectroscopy. We mainly focused on the following topics: (i) an overview of TRIR spectroscopy, (ii) principles of TRIR spectroscopy and its advantages compared to the other ultrafast techniques, (iii) examples that use polarization dependent TRIR spectroscopy to probe a variety of chemical and dynamical phenomena including protein conformational dynamics, excited state electron localization, and photoisomerization, (iv) the limitations and prospects of TRIR spectroscopy.
Key words:  Ultrafast spectroscopy  Infrared spectroscopy  Polarization  Time-resolved infrared spectroscopy
FundProject:
时间分辨偏振红外光谱及其应用
张文凯
摘要:
时间分辨偏振红外光谱已被广泛应用于研究光化学过程中的分子结构动力学. 通过测定瞬态物质跃迁偶极矩之间的角度等结构信息,可以提供光化学过程中伴随的电荷分布、分子结构和构象变化等动态信息. 包括简要介绍时间分辨偏振红外光谱技术的原理和应用:(i) 时间分辨偏振红外光谱概述;(ii) 时间分辨偏振红外光谱的原理及其优势;(iii) 利用时间分辨偏振红外光谱探测多种化学动力学过程,例如蛋白质构象动力学、激发态的电子局域化和光致异构化等;(iv) 时间分辨偏振红外光谱的局限和发展前景.
关键词:  超快光谱  红外光谱  偏振  时间分辨红外光谱
DOI:10.1063/1674-0068/29/cjcp1512246
分类号: