Super-oxidation of silicon nanoclusters: magnetism and reactive oxygen species at the surface

Oxidation of silicon nanoclusters depending on the temperature and oxygen pressure is explored from first principles using the evolutionary algorithm, and structural and thermodynamic analysis. From our calculations of 90 Si n O m clusters we found that under normal conditions oxidation does not sto...

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Bibliographic Details
Published in:Nanoscale 2016-01, Vol.8 (44), p.18616-1862
Main Authors: Lepeshkin, Sergey, Baturin, Vladimir, Tikhonov, Evgeny, Matsko, Nikita, Uspenskii, Yurii, Naumova, Anastasia, Feya, Oleg, Schoonen, Martin A, Oganov, Artem R
Format: Article
Language:English
Subjects:
NANOSCIENCE AND NANOTECHNOLOGY
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Summary:Oxidation of silicon nanoclusters depending on the temperature and oxygen pressure is explored from first principles using the evolutionary algorithm, and structural and thermodynamic analysis. From our calculations of 90 Si n O m clusters we found that under normal conditions oxidation does not stop at the stoichiometric SiO 2 composition, as it does in bulk silicon, but goes further placing extra oxygen atoms on the cluster surface. These extra atoms are responsible for light emission, relevant to reactive oxygen species and many of them are magnetic. We argue that the super-oxidation effect is size-independent and discuss its relevance to nanotechnology and miscellaneous applications, including biomedical ones. Super-oxidized silicon nanoclusters are found to be stable under ambient conditions, magnetic and having reactive oxygen species at their surface.
ISSN:2040-3364
2040-3372
DOI:10.1039/c6nr07504e