<P>We study the diffusion and rotation of Pt nanoclusters supported on graphite. Using molecular dynamics simulation, we reveal that the supported Pt clusters have two types of bottom layers: a hexagonal lattice and a rectangular lattice. The di...
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https://www.riss.kr/link?id=A107594609
2009
-
SCI,SCIE,SCOPUS
학술저널
503-507(5쪽)
0
상세조회0
다운로드다국어 초록 (Multilingual Abstract)
<P>We study the diffusion and rotation of Pt nanoclusters supported on graphite. Using molecular dynamics simulation, we reveal that the supported Pt clusters have two types of bottom layers: a hexagonal lattice and a rectangular lattice. The di...
<P>We study the diffusion and rotation of Pt nanoclusters supported on graphite. Using molecular dynamics simulation, we reveal that the supported Pt clusters have two types of bottom layers: a hexagonal lattice and a rectangular lattice. The diffusion rate of the Pt clusters mainly depends on the types of bottom layers. This observation is explained by the periodic lattice matching between the bottom layer and the graphite. In addition to lateral diffusion, we find that the Pt clusters with a rectangular or mixed lattice tend to rotate or wag on the <I>z</I> axis. By using the rotation rates and total movements of all atoms, we show that the rotation of a Pt cluster can be induced by the difference in the diffusion rates for the different types of bottom layers. This outcome is well in accord with our diffusion mechanism.</P> <P>Graphic Abstract</P><P>Interacting with graphite, Pt nanoclusters have two types of bottom layers: a hexagonal lattice and a rectangular lattice. Diffusion and rotation of supported Pt nanoclusters can be induced by the difference in the diffusion rates for the different types of bottom layers.
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