Add to ORKGTheories for inhomogeneous fluids have focused in recent years on wetting, capillary conden- sation, and solvation forces for model systems where the surface(s) is(are) smooth homogeneous parallel plates, cylinders, or spherical drops. Unfortunately natural systems are more likely to be hetaogeneous both in surt%ce shape and surface chemistry. In this paper we discuss the conse- quences of chemical heterogeneity on wetting. Specifically, a 2-dimensional implementation of a nonlocal density functional theory is solved for a striped surface model. Both the strength and range of the heterogeneity are varied. Contact angles are calculated, and phase transitions (both the wetting transition and a local layering transition) are located. The wetti...
We present a numerical study of a simple density functional theory model of fluid adsorption occurri...
Wetting phenomena are ubiquitous in nature and technology. A solid substrate exposed to the environm...
We use molecular simulation to study the wetting behavior of water near flat nonpolar surfaces. The ...
A long-standing problem of statistical mechanics, the 3D critical wetting with short-range forces ha...
Wetting is a rather efficient mechanism for nucleation of a phase (typically liquid) on the interfac...
Using molecular dynamics simulations, we thoroughly investigated the wetting behaviors of a chemical...
We study the adsorption of a fluid in the grand canonical ensemble occurring at a planar heterogeneo...
The most exciting effects associated with wetting and adsorption are caused by the fluid inhomogenei...
Even simple fluids on simple substrates can exhibit very rich surface phase behaviour. To illustrate...
This contribution is based on our talk at the BIRS Workshop on “Coupled Mathematical Models for Phys...
In this special issue article, we bring together our recent research on wetting in confinement, in p...
\u3cp\u3eAn inhomogeneous lattice self-consistent field (SCF) theory is applied to wetting problems....
The interface between water and folded proteins is very complex. Proteins have "patchy" solvent-acce...
We describe a new approach to modeling the wetting behavior of micro- and nano-textured surfaces wit...
We study phase behaviour of a model fluid confined between two unlike parallel walls in the presence...
We present a numerical study of a simple density functional theory model of fluid adsorption occurri...
Wetting phenomena are ubiquitous in nature and technology. A solid substrate exposed to the environm...
We use molecular simulation to study the wetting behavior of water near flat nonpolar surfaces. The ...
A long-standing problem of statistical mechanics, the 3D critical wetting with short-range forces ha...
Wetting is a rather efficient mechanism for nucleation of a phase (typically liquid) on the interfac...
Using molecular dynamics simulations, we thoroughly investigated the wetting behaviors of a chemical...
We study the adsorption of a fluid in the grand canonical ensemble occurring at a planar heterogeneo...
The most exciting effects associated with wetting and adsorption are caused by the fluid inhomogenei...
Even simple fluids on simple substrates can exhibit very rich surface phase behaviour. To illustrate...
This contribution is based on our talk at the BIRS Workshop on “Coupled Mathematical Models for Phys...
In this special issue article, we bring together our recent research on wetting in confinement, in p...
\u3cp\u3eAn inhomogeneous lattice self-consistent field (SCF) theory is applied to wetting problems....
The interface between water and folded proteins is very complex. Proteins have "patchy" solvent-acce...
We describe a new approach to modeling the wetting behavior of micro- and nano-textured surfaces wit...
We study phase behaviour of a model fluid confined between two unlike parallel walls in the presence...
We present a numerical study of a simple density functional theory model of fluid adsorption occurri...
Wetting phenomena are ubiquitous in nature and technology. A solid substrate exposed to the environm...
We use molecular simulation to study the wetting behavior of water near flat nonpolar surfaces. The ...