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How Ions Break Local Symmetry: Simulations of Polarized Transient Hole Burning for Different Models of the Hydrated Electron in Contact Pairs with Na<sup>+</sup>

Sanghyun J. Park, Benjamin J. Schwartz

2023The Journal of Physical Chemistry Letters10 citationsDOI

Abstract

The hydrated electron (e aq – ) is known via polarized transient hole-burning (pTHB) experiments to have a homogeneously broadened absorption spectrum. Here, we explore via quantum simulation how the pTHB spectroscopy of different e aq – models changes in the presence of electrolytes. The idea is that cation–e aq – pairing can break the local symmetry and, thus, induce persistent inhomogeneity. We find that a “hard” cavity model shows a modest increase in the pTHB recovery time in the presence of salt, while a “soft” cavity model remains homogeneously broadened independent of the salt concentration. We also explore the orientational anisotropy of a fully ab initio density functional theory-based model of the e aq –, which is strongly inhomogeneously broadened without salt and which becomes significantly more inhomogeneously broadened in the presence of salt. The results provide a direct prediction for experiments that can distinguish between different models and, thus, help pin down the hydration structure and dynamics of the e aq – .

Topics & Concepts

AnisotropyChemical physicsIonSymmetry (geometry)Absorption (acoustics)Absorption spectroscopyElectrolytePairingSalt (chemistry)ElectronMaterials scienceChemistryMolecular physicsCondensed matter physicsPhysicsPhysical chemistryOpticsElectrodeMathematicsGeometryOrganic chemistrySuperconductivityComposite materialQuantum mechanicsSpectroscopy and Quantum Chemical StudiesPhotochemistry and Electron Transfer StudiesQuantum and electron transport phenomena
How Ions Break Local Symmetry: Simulations of Polarized Transient Hole Burning for Different Models of the Hydrated Electron in Contact Pairs with Na<sup>+</sup> | Litcius