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

Edwin L. Sibert

2023Annual Review of Physical Chemistry17 citationsDOIOpen Access PDF

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.

Topics & Concepts

AnharmonicityRepresentation (politics)Spectral linePotential energy surfaceBasis (linear algebra)Statistical physicsDegrees of freedom (physics and chemistry)Work (physics)PhysicsPotential energyComputer scienceChemical physicsTheoretical physicsChemistryAtomic physicsMoleculeQuantum mechanicsMathematicsLawGeometryPoliticsPolitical scienceSpectroscopy and Quantum Chemical StudiesMolecular spectroscopy and chiralityAdvanced Chemical Physics Studies
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