Spray-Coating of Superhydrophobic Coatings for Advanced Applications

Superhydrophobic coatings are widely applicable, e.g., as self-cleaning surfaces or water-oil separation membranes, yet their wider usage is impeded due to costs of fabrication, size, or substrate limitation. Spray-coating is a versatile coating procedures and might offer a good solution for the fabrication of these superhydrophobic coatings, due to the fact that coatings can be fabricated on various materials in a simple, fast, and inexpensive manner. Most procedures rely on hybrid coatings of hydrophobized nanoparticles and a polymeric matrix, which have several drawbacks including the easy loss of nanoparticles and difficult waste handling. Here, the fabrication of the superhydrophobic material, called Fluoropor, for the first time, by spray-coating on various substrates including metals, tissues, concrete, and glass is presented. It is fabricated by spray-coating a mixture of a highly fluorinated monomer blended with porogens followed by photopolymerization. The superhydrophobicity of the material relies on the porous structure on the micro-/nanoscale across the bulk material and does not require any nanoparticles. Excellent self-cleaning ability of these coatings, resistance against thermal and abrasive impact, and their application as oil-water separation membranes are shown. This versatile applicability is highly promising for real-world application as self-cleaning coatings or oil-water separating membranes.

Automated summary

The study presents the first spray-coating fabrication of a superhydrophobic material called Fluoropor, which can be coated on various substrates including metals, tissues, concrete, and glass. The material has a porous structure on the micro-/nanoscale and does not rely on nanoparticles. It shows excellent self-cleaning ability, resistance against thermal and abrasive impact, and is applicable as self-cleaning coatings or oil-water separation membranes in real-world applications.