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MO: Fachverband Molekülphysik
MO 13: Probing Vibrations
MO 13.1: Hauptvortrag
Donnerstag, 9. März 2017, 11:00–11:30, N 6
Ultrafast solvent fluctuations steer the hydrated excess proton in the Zundel cation H5O2+ — •Fabian Dahms1, Rene Costard1, Ehud Pines2, Eva Maria Brüning1, Torsten Siebert1, Benjamin P. Fingerhut1, Erik T. J. Nibbering1, and Thomas Elsaesser1 — 1Max-Born-Institut für Nichtlineare Optik und Kurzzeitspektroskopie, Max-Born-Str. 2a, 12489 Berlin, Germany — 2Department of Chemistry, Ben Gurion University of the Negev, P.O.B. 653, Beersheva 84105, Israel
Hydrated protons are a key feature of biochemical systems. Not only do they mediate charge transport in aqueous environments but also play a key role in cell respiration. The Zundel cation represents a prototype species in which a proton is hydrated by two water molecules. By two-color femtosecond pump-probe measurements we were able to dissect the so-called Zundel infrared absorption continuum from the OH stretching and bending vibrations[1]. In combination with theory, this led to a new picture where ultrafast solvent fluctuations modulate the position of the central H+ atom in the Zundel cation (H5O2+) causing the extreme broadening of infrared absorption.For the first time we investigate the dynamical behaviour of the O– H+–O proton transfer coordinate with femtosecond two-dimensional infrared spectroscopy. First results suggest ultrafast spectral diffusion, frequency shifts and vibrational lifetimes on a sub-100 fs time scale. In combination with results from pump-probe spectroscopy and theory, this gives new insight into vibrational motions of the hydrated proton itself. [1]: Dahms, Fabian, et al., Angew. Chem. Int. Ed. 55 (2016): 10600.