Author
Listed:
- Zhong Yin
(ETH Zürich
Tohoku University)
- Yi-Ping Chang
(Université de Genève
European XFEL)
- Tadas Balčiūnas
(ETH Zürich
Université de Genève)
- Yashoj Shakya
(Deutsches Elektronen-Synchrotron DESY
Universität Hamburg)
- Aleksa Djorović
(Université de Genève)
- Geoffrey Gaulier
(Université de Genève)
- Giuseppe Fazio
(ETH Zürich)
- Robin Santra
(Deutsches Elektronen-Synchrotron DESY
Universität Hamburg
Universität Hamburg)
- Ludger Inhester
(Deutsches Elektronen-Synchrotron DESY
Universität Hamburg)
- Jean-Pierre Wolf
(Université de Genève)
- Hans Jakob Wörner
(ETH Zürich)
Abstract
Proton transfer is one of the most fundamental events in aqueous-phase chemistry and an emblematic case of coupled ultrafast electronic and structural dynamics1,2. Disentangling electronic and nuclear dynamics on the femtosecond timescales remains a formidable challenge, especially in the liquid phase, the natural environment of biochemical processes. Here we exploit the unique features of table-top water-window X-ray absorption spectroscopy3–6 to reveal femtosecond proton-transfer dynamics in ionized urea dimers in aqueous solution. Harnessing the element specificity and the site selectivity of X-ray absorption spectroscopy with the aid of ab initio quantum-mechanical and molecular-mechanics calculations, we show how, in addition to the proton transfer, the subsequent rearrangement of the urea dimer and the associated change of the electronic structure can be identified with site selectivity. These results establish the considerable potential of flat-jet, table-top X-ray absorption spectroscopy7,8 in elucidating solution-phase ultrafast dynamics in biomolecular systems.
Suggested Citation
Zhong Yin & Yi-Ping Chang & Tadas Balčiūnas & Yashoj Shakya & Aleksa Djorović & Geoffrey Gaulier & Giuseppe Fazio & Robin Santra & Ludger Inhester & Jean-Pierre Wolf & Hans Jakob Wörner, 2023.
"Femtosecond proton transfer in urea solutions probed by X-ray spectroscopy,"
Nature, Nature, vol. 619(7971), pages 749-754, July.
Handle:
RePEc:nat:nature:v:619:y:2023:i:7971:d:10.1038_s41586-023-06182-6
DOI: 10.1038/s41586-023-06182-6
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