Free electrons in a polar liquid can form a bound state via interaction with the molecular environment. This so-called hydrated electron state in water is of fundamental importance e.g.~in cellular biology or radiation chemistry. Hydrated electrons are highly reactive radicals that can either directly interact with DNA or enzymes, or form highly excited hydrogen (H∗) after being captured by protons. Here, we investigate the formation of the hydrated electron in real-time employing XUV femtosecond pulses from a free electron laser, in this way observing the initial steps of the hydration process. Using time-resolved photoelectron spectroscopy we find formation timescales in the low picosecond range and resolve the prominent dynamics of forming excited hydrogen states.
Real-time dynamics of the formation of hydrated electrons upon irradiation of water clusters with extreme ultraviolet light / Laforge, A. C.; Michiels, R.; Bohlen, M.; Callegari, C.; Clark, A.; von Conta, A.; Coreno, M.; Di Fraia, M.; Drabbels, M.; Huppert, M.; Finetti, P.; Ma, J.; Mudrich, M.; Oliver, V.; Plekan, O.; Prince, K. C.; Shcherbinin, M.; Stranges, S.; Svoboda, V.; Wörner, H. J.; Stienkemeier, and F.. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - 122:13(2019). [10.1103/PhysRevLett.122.133001]
Real-time dynamics of the formation of hydrated electrons upon irradiation of water clusters with extreme ultraviolet light
S. StrangesMembro del Collaboration Group
;
2019
Abstract
Free electrons in a polar liquid can form a bound state via interaction with the molecular environment. This so-called hydrated electron state in water is of fundamental importance e.g.~in cellular biology or radiation chemistry. Hydrated electrons are highly reactive radicals that can either directly interact with DNA or enzymes, or form highly excited hydrogen (H∗) after being captured by protons. Here, we investigate the formation of the hydrated electron in real-time employing XUV femtosecond pulses from a free electron laser, in this way observing the initial steps of the hydration process. Using time-resolved photoelectron spectroscopy we find formation timescales in the low picosecond range and resolve the prominent dynamics of forming excited hydrogen states.| File | Dimensione | Formato | |
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