Plasma-aerosol-assisted surface engineering for scalable oil/water

Atmospheric-pressure plasma assisted engineering of polymer surfaces: From high hydrophobicity to superhydrophilicity - ScienceDirect

Printable and Versatile Superhydrophobic Paper via Scalable Nonsolvent Armor Strategy

Separation Mechanism and Construction of Surfaces with Special Wettability for Oil/Water Separation

ZnO-Nanowires-Coated Smart Surface Mesh with Reversible Wettability for Efficient On-Demand Oil/Water Separation

Polymers, Free Full-Text

Processes, Free Full-Text

Superwetting stainless steel mesh decorated with TCPP-doped UiO-66-NH2 with enhanced gravity-driven oil–water separation and visible-light-driven sterilization performance - ScienceDirect

Fabrication of a biological metal–organic framework based superhydrophobic textile fabric for efficient oil/water separation

Schematic representation of the atmospheric aerosol assisted plasma

Photocatalytically reactive surfaces for simultaneous water harvesting and treatment

Schematic diagrams of typical anti-adhesive coatings. (a) Hydrophilic