Abstract Superamphiphobic coatings have wide application prospects in various fields, but suffer from low mechanical robustness. Although some strategies been reported to solve the issue, it is still challenging for large‐scale preparation of robust superamphiphobic via facile approaches. Here, a universal method mechanically by spraying suspension containing silica nanoparticles decorated with perfluorodecyl polysiloxane and adhesive microparticles on substrates reported. Phase separation...

Superhydrophobic coatings are expected to solve the rain attenuation issue of 5G radomes. However, it is very challenging design and construct such superhydrophobic with good impalement resistance, mechanical robustness, weather which remains as one main bottlenecks hindering their practical applications. Here, we report all these merits mentioned above by spray-coating a suspension adhesive/fluorinated silica core/shell microspheres onto substrates. The formed phase separation adhesive...

Abstract Bioinspired superamphiphobic coatings have garnered significant interests and great achievements are achieved; however, it is still difficult to move them practical applications because of their pollutive preparation methods poor stability. Here, totally waterborne highly durable reported by spray‐coating adhesive layers a homogeneous suspension formed hydrolytic condensation silanes with SiO 2 nanoparticles in water. The surface structure chemical composition, superamphiphobicity,...

Photothermal superhydrophobic coatings are supposed promising to prevent ice accumulation on infrastructures but often experience significant performance degradation in real icing conditions and lack mechanical robustness. Here, we report design of robust photothermal with three-tier hierarchical micro-/nano-/nanostructures by deposition nanosized MOFs natural attapulgite nanorods, fluorination, controlled phase separation a hydrophobic adhesive spraying assembly. Phase degree content...

Self-healing superhydrophobic coatings have a wide potential for practical applications by prolonging their lifespan, but still suffer from some shortcomings, example, difficulty in repairing microstructure damage, limited self-healing cycles, and more importantly the inability to self-heal while service. Herein, we present fabrication of having photothermal chemical composition high performance anticorrosion Mg alloy. The contain shape-memory polymer (SMP) primer an upper coating composed...

Superamphiphobic surfaces have great potential in many fields but often suffer from complicated, expensive, and time-consuming preparation methods, difficulty applying them on complex substrates, low stability. Herein, we show a facile fabrication of robust superamphiphobic coatings substrates. A stock suspension was prepared by nonsolvent-induced phase separation silicone-modified polyurethane (Si-PU) adhesive containing fluorinated silica (FD-silica) nanoparticles. Then, could be easily...

Abstract Superhydrophobic surfaces have potential applications in many fields, but are seriously hindered by their complicated preparation methods and low mechanical stability. Thus, novel strategies for efficient of robust superhydrophobic on various substrates highly desired. Here, the stable coatings complex‐shaped combination phase separation dip‐coating is reported. The show excellent superhydrophobicity both water other frequently used liquids, superior impalement resistance, high...

Superamphiphobic surfaces progress rapidly but suffer from the issues of low repellency to hot liquids, complicated and nonaqueous preparation methods, durability. Here, a simple waterborne approach is developed fabricate robust superamphiphobic fabrics with excellent liquid water vapor resistance. First, perfluorodecyl polysiloxane (FD-POS) aqueous suspension was prepared by hydrolytic cocondensation (3-glycidyloxy propyl)trimethoxysilane 1H,1H,2H,2H-perfluorodecyltriethoxysilane SiO2...

Detergents are extensively used for laundry, causing significant negative impacts on water bodies, plants and animals. Superhydrophobic fabrics promising to reduce detergent consumption but suffer from low pressure resistance. Here, we report super pressure-resistant superhydrophobic prepared using polysiloxane modified SiO2 nanoparticles with epoxy groups. The show real self-cleaning performance, essentially different the conventional property of solid particles loosely placed surfaces....

The superhydrophobic coating is a promising strategy to avoid liquid foods adhesion on the packages and thus significantly reduce their waste environmental pollution. However, food-grade coatings are yet limited, especially those with excellent performances. Herein, we report preparation of by combination attapulgite (APT) natural nanorods, stearic acid (STA), hydroxypropyl distarch phosphate (HDP) adhesive. First, stock suspension was prepared an esterification reaction between APT STA....

Superamphiphobic coatings have widespread application potential in various fields, e.g., anti-icing, anti-corrosion and self-cleaning, but are seriously limited by poor mechanical stability. Here, mechanically stable superamphiphobic were fabricated spraying the suspension composed of phase-separated silicone-modified polyester (SPET) adhesive microspheres with fluorinated silica (FD-POS@SiO2) on them. The effects non-solvent SPET contents superamphiphobicity stability studied. Due to phase...

Superhydrophobic coatings hold immense promise for various applications. However, their practical use is currently hindered by issues such as poor stability, high costs, and complex preparation processes. Here, we present the of cost-effective stable superhydrophobic through fluorination natural attapulgite (F-ATP) nanorods subsequent solvent-induced phase separation a silicone-modified polyester adhesive (SMPA) with F-ATP dispersed in it. Phase F-ATP/SMPA system forms uniform suspension...

Abstract Inspired by the lotus leaf effect, superhydrophobic coatings have significant potential in various fields, However, their poor pressure resistance, weak mechanical durability, and complex preparation processes severely limit practical applications. Here, a method for preparing pressure‐resistant durable simply spray‐coating phase separation suspension containing fluorinated silica nanoparticles polyolefin adhesive onto substrates is introduced, which forms with porous hierarchical...

Superhydrophobic fabrics have great application potential in many fields including wearable electronic devices, sports textiles, and human health monitoring, but good water impalement resistance stretching stability are the prerequisites. Here, we report design of waterborne superhydrophobic with high by constructing elastic reconfigurable micro-/micro-/nanostructures. Following theoretical analysis, two approaches were proposed employed: (i) regulating distance between microfibers polyester...

Superhydrophobic coatings have great potential for anti-icing compared with conventional techniques (<italic>e.g.</italic>, thermal melting, chemical release and mechanical vibration), but suffer from short water freezing time, environment-unfriendliness, low stability, <italic>etc.</italic>

Superhydrophobic coatings for umbrella canopies have the potential to solve issue of rain residue. However, achieving both impalement resistance and mechanical robustness in these poses a significant challenge limits their practical applications. In this study, we propose similar “pole erecting” method utilizing perfluorodecyl polysiloxane modified SiO2 nanoparticles (F-silica) as pole poly(dimethylsiloxane) (PDMS) screw enhance robustness, which is attributed three-tier hierarchical...