Infrared Spectrum of the Protonated Water Dimer in the Gas Phase

Citations Over TimeTop 1% of 2004 papers

Abstract

The frequency-dependent gas-phase infrared multiple photon dissociation (IRMPD) spectrum for the proton-bound dimer of water is reported. The present spectrum is shown to be only in fair agreement with a spectrum reported in an earlier communication but is in agreement with spectra predicted by theoretical means. Two different possible assignments of the observed infrared bands are provided. The first is based on the harmonic oscillator approximation from density functional theory calculations, and a second is based on a quantum four-dimensional model calculation of anharmonic frequencies and intensities. Both calculated spectra agree fairly well, but the density functional calculation assignments are in better agreement. This is expected despite the anharmonic nature of the asymmetric stretch due to the flat potential energy surface associated with this mode.

Related Papers

• → Prediction of Accurate Anharmonic Experimental Vibrational Frequencies for Water Clusters, (H₂O)_n, n = 2−5(2005)107 cited
• → A redefined anharmonic potential energy surface of HCN(1987)44 cited
• → An ab initio study of anharmonicity and matrix effects on the hydrogen-bonded BrH:NH complex 3(1997)31 cited
• → Infrared Multiphoton Dissociation Spectra as a Probe of Ion Molecule Reaction Mechanism: The Formation of the Protonated Water Dimer via Sequential Bimolecular Reactions with 1,1,3,3−Tetrafluorodimethyl Ether(2007)9 cited