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Journal article

Finite Size Effects in Chemical Bonding: From Small Clusters to Solids

By Kleis, Jesper1; Greeley, Jeffrey Philip1; Romero, N. A.2; Morozov, V. A.2; Falsig, Hanne1,3; Larsen, Ask Hjorth1,3; Lu, Jianmin1; Mortensen, Jens Jørgen1; Dułak, M.4; Thygesen, Kristian Sommer1,3; Nørskov, Jens Kehlet1,3; Jacobsen, Karsten Wedel1,3 ...and 2 more

From

Department of Physics, Technical University of Denmark1

Argonne National Laboratory2

Computational Atomic-scale Materials Design, Department of Physics, Technical University of Denmark3

Technical University of Denmark4

We address the fundamental question of which size a metallic nano-particle needs to have before its surface chemical properties can be considered to be those of a solid, rather than those of a large molecule. Calculations of adsorption energies for carbon monoxide and oxygen on a series of gold nanoparticles ranging from 13 to 1,415 atoms, or 0.8–3.7 nm, have been made possible by exploiting massively parallel computing on up to 32,768 cores on the Blue Gene/P computer at Argonne National Laboratory.

We show that bulk surface properties are obtained for clusters larger than ca. 560 atoms (2.7 nm). Below that critical size, finite-size effects can be observed, and we show those to be related to variations in the local atomic structure augmented by quantum size effects for the smallest clusters.

Language: English
Publisher: Springer US
Year: 2011
Pages: 1067-1071
ISSN: 1572879x and 1011372x
Types: Journal article
DOI: 10.1007/s10562-011-0632-0
ORCIDs: Larsen, Ask Hjorth , Thygesen, Kristian Sommer , Nørskov, Jens Kehlet and Jacobsen, Karsten Wedel
Keywords

DFT Nano-particle Size effects

Other keywords

Catalysis Chemistry Industrial Chemistry/Chemical Engineering Organometallic Chemistry Physical Chemistry

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