Title :
Plasma printing: patterned surface functionalisation and coating at atmospheric pressure
Author :
Penache, C. ; Gessner, C. ; Betker, T. ; Bartels, V. ; Hollaender, A. ; Klages, C.-P.
Author_Institution :
Fraunhofer Inst. for Surface Eng. & Thin Films, Braunschweig, Germany
Abstract :
A new plasma-based micropatterning technique, here referred to as plasma printing, combines the well known advantages given by the nonequilibrium character of a dielectric barrier discharge (DBD) and its operation inside small gas volumes with dimension between tens and hundreds of micrometres. The discharge is run at atmospheric pressure and can be easily implemented for patterned surface treatment with applications in biotechnology and microtechnology. In this work the local modification of dielectric substrates, e.g. polymeric films, is addressed with respect to coating and chemical functionalisation, immobilisation of biomolecules and area-selective electroless plating.
Keywords :
biotechnology; dielectric materials; discharges (electric); electroplating; molecular biophysics; plasma materials processing; polymer films; surface treatment; area-selective electroless plating; atmospheric pressure; biomolecule immobilisation; biotechnology; chemical functionalisation; coating; dielectric barrier discharge; dielectric substrates; microtechnology; patterned surface functionalisation; plasma printing; plasma-based micropatterning technique; polymeric films;
Journal_Title :
Nanobiotechnology, IEE Proceedings -
DOI :
10.1049/ip-nbt:20040836
