An atomic force microscope study of vanadium-benzene sandwich clusters soft-landed on self-assembled monolayers

S. Nagaoka; K. Ikemoto; K. Fujio; K. Hiehata; A. Sasahara; M. Mitsui; H. Onishi; A. Nakajima

doi:10.1140/epjd/e2009-00068-x

An atomic force microscope study of vanadium-benzene sandwich clusters soft-landed on self-assembled monolayers

S. Nagaoka, K. Ikemoto, K. Fujio, K. Hiehata, A. Sasahara, M. Mitsui, H. Onishi, A. Nakajima

Department of Chemistry

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

4 Citations (Scopus)

Abstract

Multiple-decker vanadium-benzene sandwich clusters V_n(benzene) _n+1 produced by a laser-vaporization synthesis method were soft-landed onto self-assembled monolayers of alkanethiol (C₁₈H-SAM) and fluorinated alkanethiol (C₁₀F-SAM) at 200 K. Noncontact atomic force microscopy has been used to examine the resulting adsorption states of the clusters landed on the SAMs at room temperature. For each SAM substrate, the aggregates of the deposited clusters were observed at the vacancy islands and near the steps of the SAM surface. The result indicates that, at room temperature, the clusters landed on the SAM substrate thermally diffuse on the surface to form columnar-shape islands around the defect sites of the SAM surface.

Original language	English
Pages (from-to)	103-106
Number of pages	4
Journal	European Physical Journal D
Volume	52
Issue number	1-3
DOIs	https://doi.org/10.1140/epjd/e2009-00068-x
Publication status	Published - 2009 Apr

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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10.1140/epjd/e2009-00068-x

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title = "An atomic force microscope study of vanadium-benzene sandwich clusters soft-landed on self-assembled monolayers",

abstract = "Multiple-decker vanadium-benzene sandwich clusters Vn(benzene) n+1 produced by a laser-vaporization synthesis method were soft-landed onto self-assembled monolayers of alkanethiol (C18H-SAM) and fluorinated alkanethiol (C10F-SAM) at 200 K. Noncontact atomic force microscopy has been used to examine the resulting adsorption states of the clusters landed on the SAMs at room temperature. For each SAM substrate, the aggregates of the deposited clusters were observed at the vacancy islands and near the steps of the SAM surface. The result indicates that, at room temperature, the clusters landed on the SAM substrate thermally diffuse on the surface to form columnar-shape islands around the defect sites of the SAM surface.",

author = "S. Nagaoka and K. Ikemoto and K. Fujio and K. Hiehata and A. Sasahara and M. Mitsui and H. Onishi and A. Nakajima",

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T1 - An atomic force microscope study of vanadium-benzene sandwich clusters soft-landed on self-assembled monolayers

AU - Nagaoka, S.

AU - Ikemoto, K.

AU - Fujio, K.

AU - Hiehata, K.

AU - Sasahara, A.

AU - Mitsui, M.

AU - Onishi, H.

AU - Nakajima, A.

PY - 2009/4

Y1 - 2009/4

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AB - Multiple-decker vanadium-benzene sandwich clusters Vn(benzene) n+1 produced by a laser-vaporization synthesis method were soft-landed onto self-assembled monolayers of alkanethiol (C18H-SAM) and fluorinated alkanethiol (C10F-SAM) at 200 K. Noncontact atomic force microscopy has been used to examine the resulting adsorption states of the clusters landed on the SAMs at room temperature. For each SAM substrate, the aggregates of the deposited clusters were observed at the vacancy islands and near the steps of the SAM surface. The result indicates that, at room temperature, the clusters landed on the SAM substrate thermally diffuse on the surface to form columnar-shape islands around the defect sites of the SAM surface.

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An atomic force microscope study of vanadium-benzene sandwich clusters soft-landed on self-assembled monolayers

Abstract

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