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@ARTICLE{Bloss:607622,
author = {Bloss, Dana and Trinter, Florian and Unger, Isaak and
Zindel, Christina and Honisch, Carolin and Viehmann,
Johannes and Kiefer, Nils and Marder, Lutz and
Küstner-Wetekam, Catmarna and Heikura, Emilia and
Cederbaum, Lorenz S. and Björneholm, Olle and Hergenhahn,
Uwe and Ehresmann, Arno and Hans, Andreas},
title = {{X}-ray radiation damage cycle of solvated inorganic ions},
journal = {Nature Communications},
volume = {15},
number = {1},
issn = {2041-1723},
address = {[London]},
publisher = {Nature Publishing Group UK},
reportid = {PUBDB-2024-01958},
pages = {4594},
year = {2024},
note = {05K19RK2, 2023-04346},
abstract = {X-ray-induced damage is one of the key topics in radiation
chemistry. Substantialdamage is attributed to low-energy
electrons and radicals emergingfrom direct inner-shell
photoionization or produced by subsequent processes.We apply
multi-electron coincidence spectroscopy to X-ray-irradiated
aqueoussolutions of inorganic ions to investigate the
production of low-energyelectrons (LEEs) in a predicted
cascade of intermolecular charge- and
energytransferprocesses, namely electron-transfer-mediated
decay (ETMD) andinteratomic/intermolecular Coulombic decay
(ICD). An advanced coincidencetechnique allows us to
identify several LEE-producing steps during the decayof 1s
vacancies in solvated Mg$^{2+}$ ions, which escaped
observation in previousnon-coincident experiments. We
provide strong evidence for the predictedrecovering of the
ion’s initial state. In natural environments the
recovering ofthe ion’s initial state is expected to cause
inorganic ions to be radiationdamagehot spots, repeatedly
producing destructive particles under
continuousirradiation.},
cin = {DOOR ; HAS-User},
ddc = {500},
cid = {I:(DE-H253)HAS-User-20120731},
pnm = {6G3 - PETRA III (DESY) (POF4-6G3) / FS-Proposal: I-20210172
(I-20210172) / SWEDEN-DESY - SWEDEN-DESY Collaboration
$(2020_Join2-SWEDEN-DESY)$ / 05K22RK1 - Verbundprojekt
05K2022 - TRANSALP: Zeit- $\&$ winkelaufgelöste
Spektroskopie an Proben in der flüssigen Phase. Teilprojekt
2: Aufbau Liquid Jet und KI-basierte Datenanalyse.
(BMBF-05K22RK1) / SFB 1319 T01 - Förderung des
Wissenschaftsverständnisses in Schulen durch den Transfer
von ELCH-Aktivitäten (T01) (491565994) / DFG project
509471550 - Dynamik photoionisations-induzierter Prozesse in
laser-präparierten Molekülen in der Gasphase und der
wässrigen Phase (509471550) / $ETMD_ICEC$ - Efficient
pathways to neutralization and radical production enabled by
environment (692657)},
pid = {G:(DE-HGF)POF4-6G3 / G:(DE-H253)I-20210172 /
$G:(DE-HGF)2020_Join2-SWEDEN-DESY$ /
G:(DE-Ds200)BMBF-05K22RK1 / G:(GEPRIS)491565994 /
G:(GEPRIS)509471550 / G:(EU-Grant)692657},
experiment = {EXP:(DE-H253)P-P04-20150101},
typ = {PUB:(DE-HGF)16},
pubmed = {pmid:38816362},
UT = {WOS:001236316700008},
doi = {10.1038/s41467-024-48687-2},
url = {https://bib-pubdb1.desy.de/record/607622},
}
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