Growth modes of thin films of ligand-free metal clusters

A. Dollinger; C. H. Strobel; H. Bleuel; A. Marsteller; G. Gantefoer; D. H. Fairbrother; Xin Tang; K. H. Bowen; Young Dok Kim

doi:10.1063/1.4921184

Growth modes of thin films of ligand-free metal clusters

A. Dollinger
, C. H. Strobel
, H. Bleuel
, A. Marsteller
, G. Gantefoer
, D. H. Fairbrother
, Xin Tang
, K. H. Bowen
, Young Dok Kim

Department of Chemistry

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Size-selected Mo_n^-, W_n^-, and Fe_n^- cluster anions are deposited on a weakly interacting substrate (highly oriented pyrolytic graphite) and studied ex-situ using atomic force microscopy. Depending on size, three growth modes can be distinguished. Very small clusters consisting of less than 10-30 atoms behave similar to atoms and coalesce into 3-dimensional bulk-like islands. Medium sized clusters consisting of hundreds of atoms do not coalesce and follow a Stanski-Krastanov growth pattern. At low coverage, an almost perfect monolayer is formed. This is a new finding different from all previous studies on deposited metal clusters. For clusters with several thousands of atoms, the growth pattern again changes. At low coverage, the substrate is dotted with individual clusters, while at high coverage, the surface becomes extremely rough.

Original language	English
Article number	195302
Journal	Journal of Applied Physics
Volume	117
Issue number	19
DOIs	https://doi.org/10.1063/1.4921184
State	Published - 21 May 2015

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title = "Growth modes of thin films of ligand-free metal clusters",

abstract = "Size-selected Mon-, Wn-, and Fen- cluster anions are deposited on a weakly interacting substrate (highly oriented pyrolytic graphite) and studied ex-situ using atomic force microscopy. Depending on size, three growth modes can be distinguished. Very small clusters consisting of less than 10-30 atoms behave similar to atoms and coalesce into 3-dimensional bulk-like islands. Medium sized clusters consisting of hundreds of atoms do not coalesce and follow a Stanski-Krastanov growth pattern. At low coverage, an almost perfect monolayer is formed. This is a new finding different from all previous studies on deposited metal clusters. For clusters with several thousands of atoms, the growth pattern again changes. At low coverage, the substrate is dotted with individual clusters, while at high coverage, the surface becomes extremely rough.",

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T1 - Growth modes of thin films of ligand-free metal clusters

AU - Dollinger, A.

AU - Strobel, C. H.

AU - Bleuel, H.

AU - Marsteller, A.

AU - Gantefoer, G.

AU - Fairbrother, D. H.

AU - Tang, Xin

AU - Bowen, K. H.

AU - Kim, Young Dok

PY - 2015/5/21

Y1 - 2015/5/21

N2 - Size-selected Mon-, Wn-, and Fen- cluster anions are deposited on a weakly interacting substrate (highly oriented pyrolytic graphite) and studied ex-situ using atomic force microscopy. Depending on size, three growth modes can be distinguished. Very small clusters consisting of less than 10-30 atoms behave similar to atoms and coalesce into 3-dimensional bulk-like islands. Medium sized clusters consisting of hundreds of atoms do not coalesce and follow a Stanski-Krastanov growth pattern. At low coverage, an almost perfect monolayer is formed. This is a new finding different from all previous studies on deposited metal clusters. For clusters with several thousands of atoms, the growth pattern again changes. At low coverage, the substrate is dotted with individual clusters, while at high coverage, the surface becomes extremely rough.

AB - Size-selected Mon-, Wn-, and Fen- cluster anions are deposited on a weakly interacting substrate (highly oriented pyrolytic graphite) and studied ex-situ using atomic force microscopy. Depending on size, three growth modes can be distinguished. Very small clusters consisting of less than 10-30 atoms behave similar to atoms and coalesce into 3-dimensional bulk-like islands. Medium sized clusters consisting of hundreds of atoms do not coalesce and follow a Stanski-Krastanov growth pattern. At low coverage, an almost perfect monolayer is formed. This is a new finding different from all previous studies on deposited metal clusters. For clusters with several thousands of atoms, the growth pattern again changes. At low coverage, the substrate is dotted with individual clusters, while at high coverage, the surface becomes extremely rough.

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U2 - 10.1063/1.4921184

DO - 10.1063/1.4921184

M3 - Article

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SN - 0021-8979

VL - 117

JO - Journal of Applied Physics

JF - Journal of Applied Physics

IS - 19

M1 - 195302

ER -

Growth modes of thin films of ligand-free metal clusters

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