Add to ORKGThis study proposes a method to enhance the anti-icing capabilities of superhydrophobic surfaces by utilizing vibration to further reduce contact time of an impacting droplet in addition to keeping the droplet in the Cassie-Baxter regime, where surface adhesion is lower than the opposing Wenzel regime. We tested this with two methods: by investigating the effects of vibration normal to the plane of a superhydrophobic surface being impacted by water droplets in a room temperature environment, with the surface horizontal in a room temperature environment and tiled in a subzero degree environment. The amplitude and frequency of the vibration were varied in our experiments. Our results show that the mean contact time of a 10µL droplet consisten...
Superhydrophobic surfaces, implied by its name, refer to ‘ultra-water-repellent surfaces’. They were...
Dynamic water repellency refers to the capacity of droplets to rapidly detach from solid surfaces an...
Superhydrophobic surfaces, implied by its name, refer to ‘ultra-water-repellent surfaces’. They were...
A liquid repellent surface can potentially be used to reduce ice accretion on surface and improve as...
In order to improve dropwise condensation (DWC), droplets must be efficiently shed from the surface ...
Effortless preparation of superhydrophobic surfaces mimicking the wetting characteristics of lotus l...
Effortless preparation of superhydrophobic surfaces mimicking the wetting characteristics of lotus l...
Ultra hydrophobic (or super hydrophobic) surfaces are known to be incredibly difficult to wet; this ...
Ultra hydrophobic (or super hydrophobic) surfaces are known to be incredibly difficult to wet; this ...
In the present work, an investigation of stagnation flow imposed on a supercooled water drop in cold...
Hydrophobicity, and in particular superhydrophobicity, has been extensively considered to promote ic...
Many industrial processes such as printing and cleaning, as well as products like adhesives, coating...
Atmospheric icing from supercooled droplets in the atmosphere can have catastrophic consequences for...
Many industrial processes such as printing and cleaning, as well as products like adhesives, coating...
Dynamic water repellency refers to the capacity of droplets to rapidly detach from solid surfaces an...
Superhydrophobic surfaces, implied by its name, refer to ‘ultra-water-repellent surfaces’. They were...
Dynamic water repellency refers to the capacity of droplets to rapidly detach from solid surfaces an...
Superhydrophobic surfaces, implied by its name, refer to ‘ultra-water-repellent surfaces’. They were...
A liquid repellent surface can potentially be used to reduce ice accretion on surface and improve as...
In order to improve dropwise condensation (DWC), droplets must be efficiently shed from the surface ...
Effortless preparation of superhydrophobic surfaces mimicking the wetting characteristics of lotus l...
Effortless preparation of superhydrophobic surfaces mimicking the wetting characteristics of lotus l...
Ultra hydrophobic (or super hydrophobic) surfaces are known to be incredibly difficult to wet; this ...
Ultra hydrophobic (or super hydrophobic) surfaces are known to be incredibly difficult to wet; this ...
In the present work, an investigation of stagnation flow imposed on a supercooled water drop in cold...
Hydrophobicity, and in particular superhydrophobicity, has been extensively considered to promote ic...
Many industrial processes such as printing and cleaning, as well as products like adhesives, coating...
Atmospheric icing from supercooled droplets in the atmosphere can have catastrophic consequences for...
Many industrial processes such as printing and cleaning, as well as products like adhesives, coating...
Dynamic water repellency refers to the capacity of droplets to rapidly detach from solid surfaces an...
Superhydrophobic surfaces, implied by its name, refer to ‘ultra-water-repellent surfaces’. They were...
Dynamic water repellency refers to the capacity of droplets to rapidly detach from solid surfaces an...
Superhydrophobic surfaces, implied by its name, refer to ‘ultra-water-repellent surfaces’. They were...