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Schlagwörter:
Ion spectroscopy; vibrationalspectroscopy; infraredphotodissociation;microsolvation
Zusammenfassung:
Infrared photodissociation spectroscopy of D2- tagged anions is used to obtain the vibrational spectra of microsolvated acetate, CH3CO2-(H2O)n (n=0–2), in the CH/OH stretching(∼4000–2500 cm-1) and fingerprint (∼1800–800 cm-1) spectral regions. These results are analysed by comparison to anharmonic IR spectra from MP2 calculations as well as Born-Oppenheimer molecular dynamics (BOMD) simulations. In agreement with prior work, we find that the first water molecule adds to the acetate anion by donating two hydrogen bonds, yielding a symmetrical structure involving a six-membered hydrogen-bonded ring. Two nearly degenerate binding motifs that differ in energy by less than 1 kJ/mol are identified for n=2 anion, where the lowest-energy geometry has two ion-water hydrogen bonds as well as a water-water hydrogen bond. The molecular dynamics simulations confirm that this lower-energy structure is preferred over a slightly higher-lying configuration possessing three ion-water hydrogen bonds and no water-water interactions.Analysis of the molecular motion contributing to peaks in the BOMD spectra via a generalised normal mode approach provides assignment of all observed transitions to the lower-energy structure, and enables distinction of the vibrational signatures associated with ion-water and water-water intermolecular motions.
