© 2015 AIP Publishing LLC. Using Monte Carlo simulation, we study the influence of geometric confinement on demixing for a series of symmetric non-additive hard spheres mixtures confined in slit pores. We consider both a wide range of positive non-additivities and a series of pore widths, ranging from the pure two dimensional limit to a large pore width where results are close to the bulk three dimensional case. Critical parameters are extracted by means of finite size analysis. As a general trend, we find that for this particular case in which demixing is induced by volume effects, the critical demixing densities (and pressures) increase due to confinement between neutral walls, following the expected behavior for phase equilibria of syste...
We present the results of experimental and theoretical studies of the statistical mechanics of suspe...
Colloidal systems with competing interactions have a complex phase diagram with several periodic mic...
The accurate description of the behavior of fluids in nanoporous materials is of great importance fo...
Using the fundamental-measure density-functional theory, we study theoretically the phase behavior o...
Using Gibbs ensemble Monte Carlo simulations and density functional theory we investigate the fluid-...
The effect of periodic surface roughness on the behavior of confined soft sphere fluids is investiga...
A molecular simulation study of binary mixtures of hard spherocylinders (HSCs) and hard spheres (HSs...
Unlike macroscopic objects, any system of nanometric size shows characteristics that strongly depend...
We study the demixing transition of mixtures of equal size hard spheres and dipolar hard spheres usi...
This work is devoted to the exact statistical mechanics treatment of simple inhomogeneous few-body s...
We show the existence of a fluid-fluid demixing transition in binary mixtures of nonadditive asymmet...
We derive an analytical expression of the second virial coefficient of d-dimensional hard sphere flu...
Confinement can have a dramatic effect on the behavior of all sorts of particulate systems, and it t...
The accurate description of the behavior of fluids in nanoporous materials is of great importance fo...
A salient effect of strong confinement, especially when quasi one-dimensional, is to drastically alt...
We present the results of experimental and theoretical studies of the statistical mechanics of suspe...
Colloidal systems with competing interactions have a complex phase diagram with several periodic mic...
The accurate description of the behavior of fluids in nanoporous materials is of great importance fo...
Using the fundamental-measure density-functional theory, we study theoretically the phase behavior o...
Using Gibbs ensemble Monte Carlo simulations and density functional theory we investigate the fluid-...
The effect of periodic surface roughness on the behavior of confined soft sphere fluids is investiga...
A molecular simulation study of binary mixtures of hard spherocylinders (HSCs) and hard spheres (HSs...
Unlike macroscopic objects, any system of nanometric size shows characteristics that strongly depend...
We study the demixing transition of mixtures of equal size hard spheres and dipolar hard spheres usi...
This work is devoted to the exact statistical mechanics treatment of simple inhomogeneous few-body s...
We show the existence of a fluid-fluid demixing transition in binary mixtures of nonadditive asymmet...
We derive an analytical expression of the second virial coefficient of d-dimensional hard sphere flu...
Confinement can have a dramatic effect on the behavior of all sorts of particulate systems, and it t...
The accurate description of the behavior of fluids in nanoporous materials is of great importance fo...
A salient effect of strong confinement, especially when quasi one-dimensional, is to drastically alt...
We present the results of experimental and theoretical studies of the statistical mechanics of suspe...
Colloidal systems with competing interactions have a complex phase diagram with several periodic mic...
The accurate description of the behavior of fluids in nanoporous materials is of great importance fo...