Antibacterial Metal Oxide Polymer Surfaces by RF Magnetron Sputtering

Thorsten Schulte, Daniel Nöbauer, Gerald Zauner, Daniel Heim, Wolfgang Stadlbauer, Benjamin Nagl, Thomas Mitterlehner, Bernd Rübig, Gabriele Ettenberger-Bornberg, Christopher Hartl

Publikation: KonferenzbeitragPapier


Through the increased use of plastics in everyday life it is of high interest to prevent the growth and spread of microbes on such polymer surfaces. Next to galvanic coating, physical vapour deposition by sputtering is one of the most important processes for the metallization of polymers, used in many different industries (e.g. packaging, product-design, electronic devices, et cetera). This work presents results of a research project which aims to establish PVD - RF magnetron sputtering for the antibacterial functionalization of plastic surfaces. The presented approach tries to create metal or metal-oxide based biocidal surface properties directly at the surface by means of plasma deposition. Therefore, a large number of different polymers (e.g. PS, PE, PA6, PP, ABS) are coated with a thin film of the following metal oxides: Zn, Cu, Mo, W, etc. In particular, a RF magnetron sputter system (13,56 MHz) is used to deposit thin metal oxide films in a low pressure Ar plasma environment, at approximately 8 mTorr. The used discharge power is 800 W constant and 3000 W in pulsed mode. The application step just takes a few seconds. The according biocidal effect is evaluated afterwards by microbiological analysis. Additionally, the resulting physical surface properties are characterized by atomic force microscopy (AFM), scanning electron microscopy (SEM-EDX), FT-IR/ATR-spectroscopy, etc. Special focus is also put on the solubility and adhesive properties of the coating.
Titel in ÜbersetzungAntibacterial Metal Oxide Polymer Surfaces by RF Magnetron Sputtering
PublikationsstatusVeröffentlicht - 2015
Veranstaltung10th Asian-European International Conference on Plasma Surface Engineering - Jeju Island, Südkorea
Dauer: 20 Sep. 201524 Sep. 2015


Konferenz10th Asian-European International Conference on Plasma Surface Engineering
OrtJeju Island


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