Modeling Anharmonic Effects in the Vibrational Spectra of High-Frequency Modes.

IF 11.7 1区化学 Q1 CHEMISTRY, PHYSICAL Annual review of physical chemistry Pub Date : 2023-04-24 DOI:10.1146/annurev-physchem-062422-021306

Edwin L Sibert

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引用次数: 4

Abstract

High-resolution vibrational spectra of C-H, O-H, and N-H stretches depend on both molecular conformation and environment as well as provide a window into the frequencies of many other vibrational degrees of freedom as a result of mode mixing. We review current theoretical strategies that are being deployed to both aid and guide the analysis of the data that are encoded in these spectra. The goal is to enhance the power of vibrational spectroscopy as a tool for probing conformational preferences, hydrogen bonding effects away from equilibrium, and energy flow pathways. Recent years have seen an explosion of new methods and strategies for solving the nuclear Schrödinger equation. Rather than attempt a comprehensive review, this work highlights specific molecular systems that we have chosen as representing bonding motifs that are important to chemistry and biology. We focus on the choices theoretical chemists make regarding the level of electronic structure theory, the representation of the potential energy surface, the selection of coordinates, preferences in basis sets, and methods of solution.

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高频模振动谱中的非调和效应建模。

C-H、O-H和N-H的高分辨率振动光谱取决于分子的构象和环境，同时也为许多其他振动自由度的频率提供了一个窗口，这是模混合的结果。我们回顾了目前正在部署的理论策略，以帮助和指导这些光谱中编码的数据的分析。目标是提高振动光谱作为探测构象偏好，氢键效应偏离平衡和能量流动途径的工具的能力。近年来，解决核Schrödinger方程的新方法和新策略出现了爆炸式增长。而不是试图一个全面的审查，这项工作强调了特定的分子系统，我们已经选择了代表键基序是重要的化学和生物学。我们重点讨论了理论化学家在电子结构理论水平、势能面表示、坐标选择、基集偏好和求解方法等方面的选择。

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Annual review of physical chemistry 化学-物理化学

CiteScore

28.00

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0.00%

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期刊介绍： The Annual Review of Physical Chemistry has been published since 1950 and is a comprehensive resource for significant advancements in the field. It encompasses various sub-disciplines such as biophysical chemistry, chemical kinetics, colloids, electrochemistry, geochemistry and cosmochemistry, chemistry of the atmosphere and climate, laser chemistry and ultrafast processes, the liquid state, magnetic resonance, physical organic chemistry, polymers and macromolecules, and others.

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