Litcius/Paper detail

A Rather Universal Vibrational Resonance in 1:1 Hydrates of Carbonyl Compounds

Taija L. Fischer, Till J. W. Wagner, Hannes C. Gottschalk, Arman Nejad, Martin A. Suhm

2020The Journal of Physical Chemistry Letters31 citationsDOI

Abstract

When the lower frequency OH stretching fundamental of a water molecule is shifted to the 3500 cm–1 spectral range by the solvation of a carbonyl compound, in this case a ketone, its infrared intensity is shared with a dark state. It is shown by chemical and isotope substitution for more than a dozen systems that the location of this resonance is remarkably substitution-independent. Harmonic and anharmonic model calculations support its assignment to a combination of the water bending overtone and in-plane water libration. This previously unrecognized intramolecular–intermolecular coupling in single solvent water has a strength of 7–10 cm–1. It may have been sporadically observed before in a few other carbonyl compounds such as amides, without any previous exploration of its potential universality. The resulting generic picosecond energy redistribution channel for aqueous solutions may represent a slow counterpart and doorway model of what happens on a subpicosecond time scale when the hydrogen bonds become stronger, such as in carboxylic acid dimers or protonated water clusters.

Topics & Concepts

Intramolecular forceChemistryOvertoneSolvationAnharmonicityPhotochemistryMoleculeHydrogen bondLibration (molecule)Chemical physicsComputational chemistryCrystallographySpectral lineStereochemistryOrganic chemistryPhysicsGeometryMathematicsAstronomyQuantum mechanicsPoint (geometry)Spectroscopy and Quantum Chemical StudiesAdvanced Chemical Physics StudiesMolecular Spectroscopy and Structure