Recent progress in the anti-icing performance of slippery liquid-infused surfaces

Ice accumulation on outdoor structures can cause costly damage to this exposed infrastructure. Research has therefore focused on means of protecting these surfaces from ice coverage. A promising approach is the design of anti-icing surfaces and, in particular, the development of slippery liquid-infused porous surfaces (SLIPS) for icephobic applications. SLIPS involve a lubricant being infused into the porous structures of the surface, thereby eliminating water condensation in pores and reducing ice adhesion. Liquid-infused surfaces also exhibit an extreme liquid repellency, showing a low contact angle hysteresis of <2.5 degrees and a low tilt angle of <5 degrees. This paper will present recent progress in the development of anti-icing properties of slippery surfaces through a review of their fabrication methods, surface textures, and lubricant properties. We evaluate the wettability behavior of liquid-infused surfaces and outline the fabrication methods of slippery surfaces. This review also discusses the factors having the greatest effect on icephobicity, including surface morphology and lubricant properties. Finally, we introduce the latest research in the development of self-lubricating and durable SLIPS surfaces.

Automated summary

This paper presents recent progress in the development of anti-icing properties of slippery surfaces, focusing on the design of liquid-infused porous surfaces and their potential for icephobic applications. The study evaluates the wettability behavior of liquid-infused surfaces, discusses factors influencing icephobicity, and introduces the latest research on self-lubricating and durable SLIPS surfaces.