Position Controlled Growth of Single Crystal Cu3Si Nanostructures

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Item Type:
Journal Article
Date:
2015
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openAccess
Citation:
Jung S.J, O'Kelly C.J, Boland J.J, Position Controlled Growth of Single Crystal Cu3Si Nanostructures, Crystal Growth and Design, 15, 11, 2015, 5355 - 5359
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Abstract:
In this work we demonstrate the position controlled growth of single Cu3Si nanostructures using a Ge-Cu bilayer film that contains a pattern of defects on a Si substrate with a thin oxide layer. The defects act as nucleation centres for growth whilst the presence of Ge within the bilayer is critical to insure effective surface diffusion rates and to eliminate spurious nucleation and growth. This behaviour presented is consistent with a surface energy driven growth mechanism. The defect mediated reaction between Cu and the underlying Si substrate insures that the grown nanostructures are in perfect registry with the substrate. The possible applications and alternative implementations of this technology are discussed.
URI:
http://hdl.handle.net/2262/87254
Sponsor
Grant Number
Science Foundation Ireland
12/IA/1482
European Research Council
321160
Korea Research Foundation Grant
KRF-2008-357-C00060
Author's Homepage:
http://people.tcd.ie/jboland
Author: Boland, John
Sponsor:
Science Foundation Ireland
European Research Council
Korea Research Foundation Grant
Type of material:
Journal Article
URI:
http://hdl.handle.net/2262/87254
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Series/Report no:
Crystal Growth and Design;
15;
11;
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Subject:
Cu3Si, surface energy driven growth (SEDG), Eutectic, patterning
DOI:
http://dx.doi.org/10.1021/acs.cgd.5b00947
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