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Controlled growth of nano-size metal clusters on polymers by using VPD method

Controlled growth of nano-size metal clusters on polymers by using VPD method
Controlled growth of nano-size metal clusters on polymers by using VPD method
A completely dry technique (VPD) for the preparation of a metal cluster onto a polymer surface or between two polymer layers opens up very good possibilities to control the two dimensional dispersion of the metal clusters and their size during variation of the deposition parameters or the polymer surface treatment. The kinetics of heterogenous nucleation and the growth of nano-size metal clusters (Ni, Ag, Cu, Au) on polymers with different chemical composition (PMDA-ODA polyimide, polystyrene and Teflon AF) are studied by X-ray photoelectron spectroscopy (XPS) and transmission electron microscopy (TEM). In contrast to preferred nucleation and significantly incomplete condensation on the surface of Teflon AF and PS random nucleation and well defined cluster distribution was observed on PMDA-ODA polyimide.

It was shown that cluster size and cluster distribution can be influenced in a wide range (some order of magnitude) by the variation of the preparation parameters. Ar ion beam treatment of polymers with low ion dose (1012–1016 cm?2) as well as predeposition of a trace amount of a reactive metal can be successfully used to prepare a definite cluster structure due to creation of adsorption sites on polymer surface.

clusters, x-ray photoelectron spectroscopy, ion bombardment, adatoms, electron microscopy
0039-6028
300-305
Zaporojtchenko, V
e6fffab4-7657-4c87-af16-4021abf84627
Zekonyte, J.
4a1b52a8-fa37-45d8-88d8-593df2efe662
Biswas, A.
9f00108c-8514-4535-b294-7a2069d67263
Faupel, F.
67261d48-5e0c-40e5-9957-dad59695b04b
Zaporojtchenko, V
e6fffab4-7657-4c87-af16-4021abf84627
Zekonyte, J.
4a1b52a8-fa37-45d8-88d8-593df2efe662
Biswas, A.
9f00108c-8514-4535-b294-7a2069d67263
Faupel, F.
67261d48-5e0c-40e5-9957-dad59695b04b

Zaporojtchenko, V, Zekonyte, J., Biswas, A. and Faupel, F. (2003) Controlled growth of nano-size metal clusters on polymers by using VPD method. [in special issue: Proceedings of the 7th International Conference on Nanometer-Scale Science and Technology and the 21st European Conference on Surface Science] Surface Science, 532-535, 300-305. (doi:10.1016/S0039-6028(03)00128-6).

Record type: Article

Abstract

A completely dry technique (VPD) for the preparation of a metal cluster onto a polymer surface or between two polymer layers opens up very good possibilities to control the two dimensional dispersion of the metal clusters and their size during variation of the deposition parameters or the polymer surface treatment. The kinetics of heterogenous nucleation and the growth of nano-size metal clusters (Ni, Ag, Cu, Au) on polymers with different chemical composition (PMDA-ODA polyimide, polystyrene and Teflon AF) are studied by X-ray photoelectron spectroscopy (XPS) and transmission electron microscopy (TEM). In contrast to preferred nucleation and significantly incomplete condensation on the surface of Teflon AF and PS random nucleation and well defined cluster distribution was observed on PMDA-ODA polyimide.

It was shown that cluster size and cluster distribution can be influenced in a wide range (some order of magnitude) by the variation of the preparation parameters. Ar ion beam treatment of polymers with low ion dose (1012–1016 cm?2) as well as predeposition of a trace amount of a reactive metal can be successfully used to prepare a definite cluster structure due to creation of adsorption sites on polymer surface.

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More information

Published date: June 2003
Keywords: clusters, x-ray photoelectron spectroscopy, ion bombardment, adatoms, electron microscopy
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Identifiers

Local EPrints ID: 158489
URI: http://eprints.soton.ac.uk/id/eprint/158489
DOI: doi:10.1016/S0039-6028(03)00128-6
ISSN: 0039-6028
PURE UUID: 81beadce-a81e-4b17-8ad5-0cf073291720

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Date deposited: 09 Jul 2010 10:39
Last modified: 14 Mar 2024 01:50

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Contributors

Author: V Zaporojtchenko
Author: J. Zekonyte
Author: A. Biswas
Author: F. Faupel

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