. "000325384200017" . "Biederman, Hynek" . . "8"^^ . . "4"^^ . "8"^^ . "Hydrophobic and super-hydrophobic coatings based on nanoparticles overcoated by fluorocarbon plasma polymer"@en . . "GB - Spojen\u00E9 kr\u00E1lovstv\u00ED Velk\u00E9 Brit\u00E1nie a Severn\u00EDho Irska" . "Serov, Anton" . "RIV/00216208:11320/14:10227297!RIV15-MSM-11320___" . "This study proposes preparation of highly hydrophobic and super-hydrophobic fluorocarbon surfaces using a simple fully vacuum-based method. The method combines deposition of nanoparticle films by means of gas aggregation sources and overcoating of such films by a magnetron sputtered polytetrafluoroethylene layer. This makes it possible to vary independently the roughness of the resulting surfaces and their chemical composition. The surface roughness is given by the underlying nanoparticle film and surface chemical composition by the chemical structure of the thin film overcoat. It is demonstrated that the surface roughness, i.e. a key parameter that governs wettability, may be adjusted by the size of nanoparticles used in a relatively wide range. Finally, it is shown that at certain surface roughness, 60 nm in this study, the fabricated surfaces become super-hydrophobic and slippery." . "Shukurov, Andrey" . "[AD8EE04EBCA9]" . "Petr, Martin" . . . . . "11320" . "http://dx.doi.org/10.1016/j.vacuum.2013.07.014" . "Surface roughness; Magnetron sputtering; Gas aggregation sources; Superhydrophobicity"@en . . "Hydrophobic and super-hydrophobic coatings based on nanoparticles overcoated by fluorocarbon plasma polymer" . . "February" . . . "Polonskyi, Oleksandr" . "Kyli\u00E1n, Ond\u0159ej" . "Hanu\u0161, Jan" . . "Hydrophobic and super-hydrophobic coatings based on nanoparticles overcoated by fluorocarbon plasma polymer"@en . "Vacuum" . . "This study proposes preparation of highly hydrophobic and super-hydrophobic fluorocarbon surfaces using a simple fully vacuum-based method. The method combines deposition of nanoparticle films by means of gas aggregation sources and overcoating of such films by a magnetron sputtered polytetrafluoroethylene layer. This makes it possible to vary independently the roughness of the resulting surfaces and their chemical composition. The surface roughness is given by the underlying nanoparticle film and surface chemical composition by the chemical structure of the thin film overcoat. It is demonstrated that the surface roughness, i.e. a key parameter that governs wettability, may be adjusted by the size of nanoparticles used in a relatively wide range. Finally, it is shown that at certain surface roughness, 60 nm in this study, the fabricated surfaces become super-hydrophobic and slippery."@en . . "0042-207X" . "Sola\u0159, Pavel" . . "20120" . . . "100" . "RIV/00216208:11320/14:10227297" . . . . . . "Hydrophobic and super-hydrophobic coatings based on nanoparticles overcoated by fluorocarbon plasma polymer" . "10.1016/j.vacuum.2013.07.014" . "P(GA13-09853S), S" . .