Geometry-dominated fluid adsorption on sculpted solid substrates
The shape and chemical composition of solid surfaces can be controlled at a mesoscopic scale. Exposing such structured substrates to a gas that is close to coexistence with its liquid phase can produce quite distinct adsorption characteristics compared to those of planar systems, which may be import...
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Veröffentlicht in: | Nature (London) 2000-10, Vol.407 (6807), p.986-989 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | The shape and chemical composition of
solid surfaces can be controlled at a mesoscopic scale. Exposing such structured
substrates to a gas that is close to coexistence with its liquid phase can
produce quite distinct adsorption characteristics compared to those of planar
systems, which may be important for technologies such as super-repellent
surfaces or micro-fluidics. Recent studies
have concentrated on the adsorption of liquids on rough
and heterogeneous substrates, and the characterization of
nanoscopic liquid films. But the fundamental effect of geometry
on the adsorption of a fluid from the gas phase has hardly been addressed.
Here we present a simple theoretical model which shows that varying the shape
of the substrate can exert a profound influence on the adsorption isotherms
of liquids. The model smoothly connects wetting and capillary condensation
through a number of examples of fluid interfacial phenomena, and opens the
possibility of tailoring the adsorption properties of solid substrates by
sculpting their surface shape. |
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ISSN: | 0028-0836 1476-4687 |
DOI: | 10.1038/35039590 |