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Vibrational Spectra of the OH Radical in Water: Ab Initio Molecular Dynamics Simulations and Quantum Chemical Calculations Using Hybrid Functionals

Christina Apostolidou

2020Advanced Theory and Simulations16 citationsDOIOpen Access PDF

Abstract

Abstract The OH radical has remarkable features in aqueous environments. Studies of vibrational properties can uncover more information about this omnipresent radical. However, infrared spectra of the OH radical in water represent a challenging task. This work studies the OH ⋆ stretching vibration from the gas phase for OH ⋆ ‐wn (w = water, n = 0–5) clusters to the bulk phase for OH ⋆ ‐w31 via ab initio molecular dynamics (AIMD) simulations with B3LYP‐D3 and the maximally localized Wannier function scheme. The infrared spectrum of pure liquid water reveals from an AIMD simulation with 32 water molecules a characteristic bulk phase. The OH ⋆ stretching vibration is continuously red‐shifted from the gas phase to liquid water. This fact is supported by static DFT and RI‐MP2 calculations. A comparison of Wannier and radical Voronoi tessellation spectra leads to the same result for all clusters, which implies the absence of delocalized electrons. Despite the use of van der Waals radii, the Voronoi approach is able to distinguish between strong and weak hydrogen bonds, emphasizing the flexibility of this approach toward different hydrogen bond types. The stretching vibration of the OH ⋆ in the gas phase appears as a doublet due to the coupling of rotation and stretching.

Topics & Concepts

Wannier functionvan der Waals forceDelocalized electronHydrogen bondChemistryAb initioMolecular dynamicsIntermolecular forceMolecular physicsAb initio quantum chemistry methodsInfrared spectroscopyChemical physicsMoleculeComputational chemistryPhase (matter)Density functional theoryMolecular vibrationSpectral linePhysicsCondensed matter physicsQuantum mechanicsOrganic chemistrySpectroscopy and Quantum Chemical StudiesAtmospheric chemistry and aerosolsAtmospheric Ozone and Climate
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