Publication | Closed Access
Inkjet printing for direct micropatterning of a superhydrophobic surface: toward biomimetic fog harvesting surfaces
342
Citations
46
References
2014
Year
Materials ScienceSelf-cleaning SurfaceChemical EngineeringEngineeringMicrofabricationSurface ScienceSuper-hydrophobic SurfaceInkjet PrintingDirect MicropatterningBiofabricationSuperhydrophobic SurfacePrinted ElectronicsEnhanced Fog-harvesting EfficiencySurface ModificationDopamine SolutionMicrofluidics3D Printing
Direct micropatterning of superhydrophilicity on superhydrophobic surfaces was achieved by inkjet printing a mussel-inspired ink of dopamine solution onto the superhydrophobic surface, followed by the formation of polydopamine. The micropatterned superhydrophobic surfaces exhibited an enhanced fog-harvesting efficiency.
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