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2014Author
Barry, Nicolas P.E.Pitto-Barry, Anaïs
Sanchez, A.M.
Dove, A.P.
Procter, R.J.
Soldevila-Barreda, Joan J.
Kirby, N.
Hands-Portman, I.
Smith, C.J.
O'Reilly, R.K.
Beanland, R.
Sadler, P.J.
Keyword
Metal nanocrystalsMixed ruthenium–osmium 3D-nanocrystals
ångström-sized homo- and hetero-crystals
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This work is licensed under a Creative Commons Attribution 3.0 Unported License. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by/3.0/Peer-Reviewed
YesOpen Access status
openAccessAccepted for publication
2014-04-10
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Show full item recordAbstract
Metal nanocrystals offer new concepts for the design of nanodevices with a range of potential applications. Currently the formation of metal nanocrystals cannot be controlled at the level of individual atoms. Here we describe a new general method for the fabrication of multi-heteroatom-doped graphitic matrices decorated with very small, ångström-sized, three-dimensional (3D)-metal crystals of defined size. We irradiate boron-rich precious-metal-encapsulated self-spreading polymer micelles with electrons and produce, in real time, a doped graphitic support on which individual osmium atoms hop and migrate to form 3D-nanocrystals, as small as 15 Å in diameter, within 1 h. Crystal growth can be observed, quantified and controlled in real time. We also synthesize the first examples of mixed ruthenium–osmium 3D-nanocrystals. This technology not only allows the production of ångström-sized homo- and hetero-crystals, but also provides new experimental insight into the dynamics of nanocrystals and pathways for their assembly from single atoms.Version
Published versionCitation
Barry NPE, Pitto-Barry A, Sanchez AM et al (2014) Fabrication of crystals from single metal atoms. Nature Communications. 5: Article number 3851.Link to Version of Record
https://doi.org/10.1038/ncomms4851Type
Articleae974a485f413a2113503eed53cd6c53
https://doi.org/10.1038/ncomms4851