X-ray radiation damage cycle of solvated inorganic ions

Dana Bloß; Florian Trinter; Isaak Unger; Christina Zindel; Carolin Honisch; Johannes Viehmann; Nils Kiefer; Lutz Marder; Catmarna Küstner-Wetekam; Emilia Heikura; Lorenz S. Cederbaum; Olle Björneholm; Uwe Hergenhahn; Arno Ehresmann; Andreas Hans

doi:10.1038/s41467-024-48687-2

Nature Communications (May 2024)

X-ray radiation damage cycle of solvated inorganic ions

Dana Bloß,
Florian Trinter,
Isaak Unger,
Christina Zindel,
Carolin Honisch,
Johannes Viehmann,
Nils Kiefer,
Lutz Marder,
Catmarna Küstner-Wetekam,
Emilia Heikura,
Lorenz S. Cederbaum,
Olle Björneholm,
Uwe Hergenhahn,
Arno Ehresmann,
Andreas Hans

Affiliations

Dana Bloß: Institute of Physics and Center for Interdisciplinary Nanostructure Science and Technology (CINSaT), University of Kassel
Florian Trinter: Fritz-Haber-Institut der Max-Planck-Gesellschaft
Isaak Unger: Chemical and Biomolecular Physics, Department of Physics and Astronomy, Uppsala University
Christina Zindel: Institute of Physics and Center for Interdisciplinary Nanostructure Science and Technology (CINSaT), University of Kassel
Carolin Honisch: Institute of Physics and Center for Interdisciplinary Nanostructure Science and Technology (CINSaT), University of Kassel
Johannes Viehmann: Institute of Physics and Center for Interdisciplinary Nanostructure Science and Technology (CINSaT), University of Kassel
Nils Kiefer: Institute of Physics and Center for Interdisciplinary Nanostructure Science and Technology (CINSaT), University of Kassel
Lutz Marder: Institute of Physics and Center for Interdisciplinary Nanostructure Science and Technology (CINSaT), University of Kassel
Catmarna Küstner-Wetekam: Institute of Physics and Center for Interdisciplinary Nanostructure Science and Technology (CINSaT), University of Kassel
Emilia Heikura: Institute of Physics and Center for Interdisciplinary Nanostructure Science and Technology (CINSaT), University of Kassel
Lorenz S. Cederbaum: Theoretical Chemistry, Institute of Physical Chemistry, University of Heidelberg
Olle Björneholm: Chemical and Biomolecular Physics, Department of Physics and Astronomy, Uppsala University
Uwe Hergenhahn: Fritz-Haber-Institut der Max-Planck-Gesellschaft
Arno Ehresmann: Institute of Physics and Center for Interdisciplinary Nanostructure Science and Technology (CINSaT), University of Kassel
Andreas Hans: Institute of Physics and Center for Interdisciplinary Nanostructure Science and Technology (CINSaT), University of Kassel

DOI: https://doi.org/10.1038/s41467-024-48687-2
Journal volume & issue: Vol. 15, no. 1
pp. 1 – 7

Abstract

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Abstract X-ray-induced damage is one of the key topics in radiation chemistry. Substantial damage is attributed to low-energy electrons and radicals emerging from direct inner-shell photoionization or produced by subsequent processes. We apply multi-electron coincidence spectroscopy to X-ray-irradiated aqueous solutions of inorganic ions to investigate the production of low-energy electrons (LEEs) in a predicted cascade of intermolecular charge- and energy-transfer processes, namely electron-transfer-mediated decay (ETMD) and interatomic/intermolecular Coulombic decay (ICD). An advanced coincidence technique allows us to identify several LEE-producing steps during the decay of 1s vacancies in solvated Mg2+ ions, which escaped observation in previous non-coincident experiments. We provide strong evidence for the predicted recovering of the ion’s initial state. In natural environments the recovering of the ion’s initial state is expected to cause inorganic ions to be radiation-damage hot spots, repeatedly producing destructive particles under continuous irradiation.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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