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Literature DB >> 16885976

Superhydrophobicity: drying transition of confined water.

Seema Singh¹, Jack Houston, Frank van Swol, C Jeffrey Brinker.

Abstract

Long-range hydrophobic interactions operating underwater are important in the mediation of many natural and synthetic phenomena, such as protein folding, adhesion and colloid stability. Here we show that rough hydrophobic surfaces can experience attractive forces over distances more than 30 times greater than any reported previously, owing to the spontaneous evaporation of the intervening, confined water. Our finding highlights the importance of surface roughness in the interaction of extended structures in water, which has so far been largely overlooked.

Entities: Chemical

Mesh：

Substances：
Water

Year: 2006 PMID： 16885976 DOI： 10.1038/442526a

Source DB: PubMed Journal: Nature ISSN： 0028-0836 Impact factor: 49.962

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Cited

12 in total

Superhydrophobicity: drying transition of confined water.

1. The dewetting transition and the hydrophobic effect.

2. Nanoscale dewetting transition in protein complex folding.

3. Hydrophobicity of protein surfaces: Separating geometry from chemistry.

4. The search for the hydrophobic force law.

5. Potential for modulation of the hydrophobic effect inside chaperonins.

6. Wetting transitions on textured hydrophilic surfaces.

7. Effect of material flexibility on the thermodynamics and kinetics of hydrophobically induced evaporation of water.

8. Interfacial thermodynamics of confined water near molecularly rough surfaces.

9. Under-water superoleophobic glass: unexplored role of the surfactant-rich solvent.

10. Analysis of the behaviours mediating barnacle cyprid reversible adhesion.