"0169-4332" . . . . "Najdek, David" . "NL - Nizozemsko" . "Superhydrophobicity; Surface texturing; Topography; Embossing; Thermoplastic; Thermal imprinting; Aspect ratio; Laser interference lithography"@en . "6"^^ . . "Superhydrophobic Surface Structures in Thermoplastic Polymers by Interference Lithography and Thermal Imprinting" . . . . "RIV/68407700:21340/09:00162937" . . . . "344703" . . "2"^^ . . . "Superhydrophobic Surface Structures in Thermoplastic Polymers by Interference Lithography and Thermal Imprinting" . "Z(MSM6840770012), Z(MSM6840770022)" . "225" . "4"^^ . "21340" . "[D435DE158A68]" . "We present a method to produce superhydrophobic surfaces in thermoplastic polymer substrates. The method involves the creation of a nickel stamp using a customized laser interference lithography technique and electroplating processes. This stamp is used to emboss sub-micrometer periodic structures into the thermoplastic. The modified surface is coated with a hydrophobic plasmapolymerized hexafluoropropene layer. Surfaces with different periodicity and relief depth were created. On the surface with the highest aspect ratio, advancing water contact angles of 1678 were measured with a water contact angle hysteresis of below 58." . . . "Superhydrophobic Surface Structures in Thermoplastic Polymers by Interference Lithography and Thermal Imprinting"@en . "000269360300001" . . "Superhydrophobic Surface Structures in Thermoplastic Polymers by Interference Lithography and Thermal Imprinting"@en . . . . "RIV/68407700:21340/09:00162937!RIV10-MSM-21340___" . "\u0160kere\u0148, Marek" . . "Applied Surface Science" . . "23" . . "We present a method to produce superhydrophobic surfaces in thermoplastic polymer substrates. The method involves the creation of a nickel stamp using a customized laser interference lithography technique and electroplating processes. This stamp is used to emboss sub-micrometer periodic structures into the thermoplastic. The modified surface is coated with a hydrophobic plasmapolymerized hexafluoropropene layer. Surfaces with different periodicity and relief depth were created. On the surface with the highest aspect ratio, advancing water contact angles of 1678 were measured with a water contact angle hysteresis of below 58."@en .