Effective Icephobicity of Silicone Oil-Infused Oleamide–Polydimethylsiloxane with Enhanced Lubrication Lifetime

Abstract: Icing and freezing phenomena in cold weather cause serious damage and economic losses. Thus, the development of a new effective icephobic surface with low ice adhesion strength (τ ice ) that can easily remove ice by wind or gravity force is essentially required. In this study, we propose a silicone oil-infused oleamide–polydimethylsiloxane (SiOP) by a facile fabrication method to achieve the effective icephobic performance with enhanced lubrication lifetime. The proposed SiOP is composed… Show more

“…[1] In addition, marine organisms, such as seaweed, [2] coral reefs, [3] puffer fish, [4] hagfish, [5] and eels, [6] secrete mucus from their mucous membrane to reduce frictional drag and prevent surface contamination in harsh underwater environments. [7] Inspired by these lubricating functions of natural organisms, various biomimetic slippery surfaces have been developed in many engineering fields, including antifouling, [8] drag reduction, [9] anti-icing, [10] anticorrosion, [11] and self-cleaning. [12] As a fundamental form of biomimetic slippery surfaces using lubricants, a slippery liquid-infused porous surface (SLIPS) was fabricated by injecting a viscous liquid into a micro-or nanoscale empty space of a substrate.…”

“…[ 1 ] In addition, marine organisms, such as seaweed, [ 2 ] coral reefs, [ 3 ] puffer fish, [ 4 ] hagfish, [ 5 ] and eels, [ 6 ] secrete mucus from their mucous membrane to reduce frictional drag and prevent surface contamination in harsh underwater environments. [ 7 ] Inspired by these lubricating functions of natural organisms, various biomimetic slippery surfaces have been developed in many engineering fields, including antifouling, [ 8 ] drag reduction, [ 9 ] anti‐icing, [ 10 ] anticorrosion, [ 11 ] and self‐cleaning. [ 12 ]…”

Superslippery Long‐Chain Entangled Polydimethylsiloxane Gel with Sustainable Self‐Replenishment

“…[1] In addition, marine organisms, such as seaweed, [2] coral reefs, [3] puffer fish, [4] hagfish, [5] and eels, [6] secrete mucus from their mucous membrane to reduce frictional drag and prevent surface contamination in harsh underwater environments. [7] Inspired by these lubricating functions of natural organisms, various biomimetic slippery surfaces have been developed in many engineering fields, including antifouling, [8] drag reduction, [9] anti-icing, [10] anticorrosion, [11] and self-cleaning. [12] As a fundamental form of biomimetic slippery surfaces using lubricants, a slippery liquid-infused porous surface (SLIPS) was fabricated by injecting a viscous liquid into a micro-or nanoscale empty space of a substrate.…”

“…[ 1 ] In addition, marine organisms, such as seaweed, [ 2 ] coral reefs, [ 3 ] puffer fish, [ 4 ] hagfish, [ 5 ] and eels, [ 6 ] secrete mucus from their mucous membrane to reduce frictional drag and prevent surface contamination in harsh underwater environments. [ 7 ] Inspired by these lubricating functions of natural organisms, various biomimetic slippery surfaces have been developed in many engineering fields, including antifouling, [ 8 ] drag reduction, [ 9 ] anti‐icing, [ 10 ] anticorrosion, [ 11 ] and self‐cleaning. [ 12 ]…”

Superslippery Long‐Chain Entangled Polydimethylsiloxane Gel with Sustainable Self‐Replenishment

“…[16] The second strategy is lubrication, where a coating is designed to have a liquid layer on its surface. Lubrication can either be achieved by hydrophobic additives [17][18][19] (such as fluorinated oils, silicone oils, or paraffin) or hydrophilic [20,21] (aqueous) lubricants such as hygroscopic polymers. The liquid layer obstructs the ice such that it does not contact the coated surface and therefore cannot form a bond with the surface.…”

Comprehensive Measurement of the Adhesion between Ice or Glass and Model PDMS Coatings

Super-slippery silicone-based gel coating with a regenerative oil layer for long-term prevention of surface contamination