Nano-modification of surfaces using low-cost ambient air diffuse plasma

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Authors

HOMOLA Tomáš PRYSIAZHNYI Vadym STUPAVSKÁ Monika

Year of publication 2013
Type Conference abstract
MU Faculty or unit

Faculty of Science

Citation
Description . The results indicate that plasma treatment governs the treated surfaces by polar hydrophilic oxygen-based groups and reduces the amount of carbon contaminants. These processes led to higher surface energy and therefore to higher adhesion between applied coatings and plasma treated substrate. Since the DCSBD plasma may operate in various atmospheric conditions, from low-cost ambient air up to various combinations of different carrier gasses (N2, Ar, He) mixed with monomers (plasma enhanced CVD); the DCSBD treatment may be used to achieve various chemistry of . The results indicate that plasma treatment governs the treated surfaces by polar hydrophilic oxygen-based groups and reduces the amount of carbon contaminants. These processes led to higher surface energy and therefore to higher adhesion between applied coatings and plasma treated substrate. Since the DCSBD plasma may operate in various atmospheric conditions, from low-cost ambient air up to various combinations of different carrier gasses (N2, Ar, He) mixed with monomers (plasma enhanced CVD); the DCSBD treatment may be used to achieve various chemistry of treated surfaces.
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