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Literature DB >> 16144365

Wetting in hydrophobic nanochannels: a challenge of classical capillarity.

Roy Helmy¹, Yuri Kazakevich, Chaoying Ni, Alexander Y Fadeev.

Abstract

We report an investigation of the water-hydrophobic interface in well-defined nanochannels (R approximately 2-4 nm). Wetting in these systems cannot be described by classical (macroscopic) capillary theory: (1) water occupies only a fraction ( approximately 60%) of the pore volume, and (2) the capillary pressures are approximately 60-90% greater than predicted by the Laplace equation. The results suggest the presence of approximately 0.6 nm layer of low-density fluid (vapor) separating water from the hydrophobic solid.

Entities: Chemical

Mesh：

Substances：
Water
Silicon Dioxide

Year: 2005 PMID： 16144365 DOI： 10.1021/ja053267c

Source DB: PubMed Journal: J Am Chem Soc ISSN： 0002-7863 Impact factor: 15.419

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Cited

6 in total

Wetting in hydrophobic nanochannels: a challenge of classical capillarity.

1. High-resolution in situ x-ray study of the hydrophobic gap at the water-octadecyl-trichlorosilane interface.

2. Control of nanopore wetting by a photochromic spiropyran: a light-controlled valve and electrical switch.

3. Electrical conductance of hydrophobic membranes or what happens below the surface.

4. Vapor nucleation paths in lyophobic nanopores.

5. Intrusion and extrusion of water in hydrophobic nanopores.

6. Mechanistic correlation between water infiltration and framework hydrophilicity in MFI zeolites.