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Durable anti-fogging effect and adhesion improvement on polymer surfaces

Published online by Cambridge University Press:  11 December 2009

E. M. Moser ,
D. Gilliéron  and
G. Henrion
E. M. Moser*
Affiliation:
hepia Geneva, University of Applied Sciences Western Switzerland, 4 rue de la Prairie, 1202 Geneva, Switzerland
D. Gilliéron
Affiliation:
hepia Geneva, University of Applied Sciences Western Switzerland, 4 rue de la Prairie, 1202 Geneva, Switzerland
G. Henrion
Affiliation:
hepia Geneva, University of Applied Sciences Western Switzerland, 4 rue de la Prairie, 1202 Geneva, Switzerland Institut Jean Lamour, UMR CNRS – Nancy Université – UPV-Metz, Département Chimie et Physique des Solides et des Surfaces, École des Mines, Parc de Saurupt, CS14234, 54042 Nancy, France
*
eva-maria.moser@hesge.ch
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Abstract

The hydrophobic properties of polymeric surfaces may cause fogging in transparent packaging and poor adhesion to printing colours and coatings. Novel plasma processes for durable functionalization of polypropylene and polyethylene terephthalate substrates were developed and analysed using optical emission spectroscopy. A worm-like nano pattern was created on the polypropylene surface prior to the deposition of thin polar plasma polymerised layers. For both substrates, highly polar surfaces exhibiting a surface tension of up to 69 mN/m and a water contact angle of about 10° were produced – providing the anti-fogging effect. The deposition of thin plasma polymerised layers protects the increased surface areas and enables to tailoring the surface energy of the substrate in a wide range. Wetting characteristics were determined by dynamic contact angle measurements. Investigations of the chemical composition of several layers using X-ray photoelectron spectroscopy and FT-infrared spectroscopy were correlated with functional testing. The surface topography was investigated using atomic force microscopy. The weldability and peeling-off characteristics of the plasma treated polymer films could be adjusted by varying the process parameters. Global and specific migration analyses were undertaken in order to ensure the manufacturing of plasma treated polymer surfaces for direct food contact purposes.

Keywords

Type
Research Article
Information
The European Physical Journal - Applied Physics , Volume 49 , Issue 1: 17th International Colloquium on Plasma Processes (CIP 2009) , January 2010 , 13112
Copyright
© EDP Sciences, 2009

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