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RESEARCH PRODUCT
Wetting of a short chain liquid on a brush: First-order and critical wetting transitions
Marcus MüllerLuis G. Macdowellsubject
Materials scienceHamaker constantdigestive oral and skin physiologyGeneral Physics and AstronomyThermodynamicssymbols.namesakeGrand canonical ensembleWetting transitionTricritical pointChemical physicsCritical point (thermodynamics)symbolsWettingvan der Waals forcePhase diagramdescription
We investigate the wetting behaviour of short chains on a surface covered with a brush of end-grafted chains of the same architecture by a combination of self-consistent field calculations and liquid-state theory. The surface interacts with the monomers via (non-retarded) van der Waals interactions of strength A. At low grafting densities, we find first-order wetting transitions. The value of the effective Hamaker constant Awet > 0, at which the transition occurs, decreases and the strength of the first-order transition becomes weaker as we increase the grafting density. In an intermediate range of grafting densities, we encounter second-order wetting transitions at a vanishing Hamaker constant Awet = 0. The second-order transition is preceded by a first-order transition between a thin and a thick liquid layer ("frustrated" complete wet state) at negative values of A. This line of first-order transition terminates in a critical point. Upon increasing the grafting density further, we encounter a tricritical point, beyond which the wetting transition is again of first order and occurs at Awet > 0. At these high grafting densities, the brush expels the free chains (autophobicity).
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2001-07-01 |