Nanocarpet Effect Induced Superhydrophobicity
Abstract
By coating a fluorocarbon monolayer on a bundled Si nanorod array substrate, a superhydrophobic surface with contact angle ∼167° and sliding angle ∼2° is created due to the nanocarpet effect. Without forming the nanocarpet, we can only obtain a moderately hydrophobic surface with contact angle 17°. Comparison between nanocarpets formed from nanorods with low and high densities confirms that the main reason for the superhydrophobicity is the formation of sharp pyramidal bundles, which effectively reduces the area of solid−liquid contact. Video recording and analysis of millimeter-sized water droplets bouncing on the solid surface are used to ascertain the superhydrophobicity, and the energy dissipation during a low speed impact is estimated to be several nanojoules- Dataset
- Media
- Biophysics
- Physiology
- Inorganic Chemistry
- Space Science
- Chemical Sciences not elsewhere classified
- Physical Sciences not elsewhere classified
- superhydrophobicity
- video recording
- energy dissipation
- fluorocarbon monolayer
- nanocarpet effect
- speed impact
- Si nanorod array substrate
- superhydrophobic surface
- Nanocarpet Effect Induced SuperhydrophobicityBy coating
- contact
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Last time updated on 16/03/2018
This paper was published in The Francis Crick Institute.
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