Sewage Water-Repellent PDMS and Magnetic Silicone Composites: Lab to Commercialization

Abstract: Liquid-repellent surfaces are beneficial for improving corrosion resistance, anti-biofouling, anti-icing, and reducing material sticking in food, beverages, cosmetics, and medical industries. However, limited research data are available on fabricating sewage water-repellent surfaces, which should repel suspended organic/inorganic and biological matter in addition to water. Herein, we unveil the sewage water repellency and superhydrophobicity of magnetic silicone composites and poly-(dimethylsiloxane) (PDMS). H… Show more

“…Traditionally, hydrophobic surfaces of anti-icing materials, which were prepared by simply changing the chemical compositions of the materials, have some defects to restrict their applications . Moreover, the superhydrophobic surface developed later also did not show long-term stable anti-icing performance, owing to the easy damage of the micro-nanostructure on the surface. − Subsequently, slippery liquid-infused porous surfaces (SLIPS) were investigated, which can reduce the adhesion between the ice and the surface by adding lubricants such as paraffin and fluorinated oil into the porous surface. − However, gravity, flowing water, deicing, and other factors could lead to loss of lubricating oil, thereby deteriorating the anti-icing performance. − …”

Pressure-Responsive Self-Lubricating Ice-Phobic Organogel with High Mechanical Strength from Fluorinated Polynorbornene Networks

“…Traditionally, hydrophobic surfaces of anti-icing materials, which were prepared by simply changing the chemical compositions of the materials, have some defects to restrict their applications . Moreover, the superhydrophobic surface developed later also did not show long-term stable anti-icing performance, owing to the easy damage of the micro-nanostructure on the surface. − Subsequently, slippery liquid-infused porous surfaces (SLIPS) were investigated, which can reduce the adhesion between the ice and the surface by adding lubricants such as paraffin and fluorinated oil into the porous surface. − However, gravity, flowing water, deicing, and other factors could lead to loss of lubricating oil, thereby deteriorating the anti-icing performance. − …”

Pressure-Responsive Self-Lubricating Ice-Phobic Organogel with High Mechanical Strength from Fluorinated Polynorbornene Networks