Broken-Bond Rule for the Surface Energies of Noble Metals

Boer F. R.; Desjonquères M. C.; G Bihlmayer; Galanakis I.; Galanakis I.; I Galanakis; N Papanikolaou; P. H Dederichs; R Zeller; Robertson I. J.; S Blügel; Takeuchi N.; V Bellini; van Pixteren H. M.

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Broken-Bond Rule for the Surface Energies of Noble Metals

Authors: Boer F. R.
Desjonquères M. C.
G Bihlmayer
Galanakis I.
Galanakis I.
I Galanakis
N Papanikolaou
P. H Dederichs
R Zeller
Robertson I. J.
S Blügel
Takeuchi N.
V Bellini
van Pixteren H. M.
Publication date: 11 October 2001
Publisher: 'IOP Publishing'
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Abstract

Using two different full-potential ab-initio techniques we introduce a simple, universal rule based on the number of broken first-neighbor bonds to determine the surface energies of the three noble metals Cu, Ag and Au. When a bond is broken, the rearrangement of the electronic charge for these metals does not lead to a change of the remaining bonds. Thus the energy needed to break a bond is independent of the surface orientation. This novel finding can lead to the development of simple models to describe the energetics of a surface like step and kink formation, crystal growth, alloy formation, equilibrium shape of mesoscopic crystallites and surface faceting.Comment: 4 pages, 2 figure

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