Large-amplitude transfer motion of hydrated excess protons mapped by ultrafast 2D IR spectroscopy

Large-amplitude transfer motion of hydrated excess protons mapped by ultrafast 2D IR spectroscopy

Solvation and transport of excess protons in aqueous systems play a fundamental role in acid-base chemistry and biochemical processes. We mapped ultrafast proton excursions along the proton transfer coordinate by means of two-dimensional infrared spectroscopy, both in bulk water and in a Zundel cati...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2017-08, Vol.357 (6350), p.491-495
Hauptverfasser: Dahms, Fabian, Fingerhut, Benjamin P., Nibbering, Erik T. J., Pines, Ehud, Elsaesser, Thomas
Format: Artikel
Sprache:eng
Schlagworte:
Acetonitrile
Acids
Chemical bonds
Homing
Hydrogen bonding
Hydrogen bonds
Infrared spectroscopy
Literary Devices
Organic Chemistry
Persistence
Protons
Solvation
Spectroscopy
Stochasticity
Time
Transport
Vibration
Water
Water chemistry
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Zusammenfassung:Solvation and transport of excess protons in aqueous systems play a fundamental role in acid-base chemistry and biochemical processes. We mapped ultrafast proton excursions along the proton transfer coordinate by means of two-dimensional infrared spectroscopy, both in bulk water and in a Zundel cation (H₅O₂)⁺ motif selectively prepared in acetonitrile. Electric fields from the environment and stochastic hydrogen bond motions induce fluctuations of the proton double-minimum potential. Within the lifetime of a particular hydration geometry, the proton explores a multitude of positions on a sub-100-femtosecond time scale. The proton transfer vibration is strongly damped by its 20- to 40-femtosecond population decay. Our results suggest a central role of Zundel-like geometries in aqueous proton solvation and transport.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.aan5144