HIGHLIGHTS
- What: The aim of this study is to generate surfaces based on biocompatible chemicals and sustainable process routes that exhibit anti-adhesive properties against polymeric fouling during the polymerization of VAc, which is prone to significant deposit formation. In this study, the chemical surface composition is analyzed by XPS and DRIFTS. The presented improved non-wetting characteristics are attributable to the fine TiO2 nanostructure chosen in this work, since generally lower water contact angles were determined on various PDMS-modified metal oxides with low roughness or on cured, flat PDMS , respectively.
- Who: Vanessa Neßlinger . . .
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