Add to ORKGWe report a robust procedure for preparing superhydrophobic hybrid films on which the advancing contact angle for water is about 165° and the roll-off angle of a 10-µL water droplet is 3 ± 1°. Dual-size surface roughness, which mimics the surface topology of self-cleaning plant leaves, originates from well-defined silica-based raspberry-like particles that are covalently bonded to an epoxy-based polymer matrix. The roughened surface is chemically modified with a layer of poly(dimethylsiloxane) (PDMS). The robustness and simplicity of this procedure may make widespread applications of so-prepared superhydrophobic films possible
Superhydrophobic surfaces have been extensively investigated for self-cleaning, low-adhesion, anti-c...
Lotus flowers, rose petals, some plant leaves and insects have a naturally super-hydrophobic surface...
Lotus flowers, rose petals, some plant leaves and insects have a naturally super-hydrophobic surface...
We report a robust procedure for preparing superhydrophobic hybrid films on which the advancing cont...
We report a robust procedure for preparing superhydrophobic hybrid films on which the advancing cont...
We report a robust procedure for preparing superhydrophobic hybrid films on which the advancing cont...
We report a robust procedure for preparing superhydrophobic hybrid films on which the advancing cont...
For many years, people have been attracted by the self-cleaning property of the lotus leaf, and drea...
Superhydrophobic surfaces have been extensively investigated for self-cleaning, low-adhesion, anti-c...
Superhydrophobic surfaces have been extensively investigated for self-cleaning, low-adhesion, anti-c...
Wepresent a superhydrophobic coating made fromwaterborne, all-polymeric ‘raspberry’ particles, compo...
Superhydrophobic surfaces have been extensively investigated for self-cleaning, low-adhesion, anti-c...
Superhydrophobic surfaces have been extensively investigated for self-cleaning, low-adhesion, anti-c...
Superhydrophobic surfaces have been extensively investigated for self-cleaning, low-adhesion, anti-c...
Superhydrophobic surfaces have been extensively investigated for self-cleaning, low-adhesion, anti-c...
Superhydrophobic surfaces have been extensively investigated for self-cleaning, low-adhesion, anti-c...
Lotus flowers, rose petals, some plant leaves and insects have a naturally super-hydrophobic surface...
Lotus flowers, rose petals, some plant leaves and insects have a naturally super-hydrophobic surface...
We report a robust procedure for preparing superhydrophobic hybrid films on which the advancing cont...
We report a robust procedure for preparing superhydrophobic hybrid films on which the advancing cont...
We report a robust procedure for preparing superhydrophobic hybrid films on which the advancing cont...
We report a robust procedure for preparing superhydrophobic hybrid films on which the advancing cont...
For many years, people have been attracted by the self-cleaning property of the lotus leaf, and drea...
Superhydrophobic surfaces have been extensively investigated for self-cleaning, low-adhesion, anti-c...
Superhydrophobic surfaces have been extensively investigated for self-cleaning, low-adhesion, anti-c...
Wepresent a superhydrophobic coating made fromwaterborne, all-polymeric ‘raspberry’ particles, compo...
Superhydrophobic surfaces have been extensively investigated for self-cleaning, low-adhesion, anti-c...
Superhydrophobic surfaces have been extensively investigated for self-cleaning, low-adhesion, anti-c...
Superhydrophobic surfaces have been extensively investigated for self-cleaning, low-adhesion, anti-c...
Superhydrophobic surfaces have been extensively investigated for self-cleaning, low-adhesion, anti-c...
Superhydrophobic surfaces have been extensively investigated for self-cleaning, low-adhesion, anti-c...
Lotus flowers, rose petals, some plant leaves and insects have a naturally super-hydrophobic surface...
Lotus flowers, rose petals, some plant leaves and insects have a naturally super-hydrophobic surface...