The recently proposed scaled particle theory SPT2 approach to the description of three-dimensional hard sphere uids in random porous media is extended for one- and two-dimensional cases. Analytical expressions for the chemical potential and pressure of one- and two-dimensional hard sphere uids in hard sphere and overlapping hard sphere matrices are obtained and discussed. Some improvements and modications of the obtained results are proposed. Key words: conned uids, porous materials, scaled particle theor
This thesis is a contribution to the understanding of solvent effects on the thermodynamic propertie...
Despite the lack of attractive interaction potentials in hard-sphere (HS) colloidal dispersions, a c...
In Part I of this study, we extended a formal theory for the statistical mechanics of a nonuniform c...
The SPT2 approach is based on the scaled particle theory and developed for the description of thermo...
The scaled particle theory is applied to a description of thermodynamic properties of one-dimensiona...
This work is devoted to the exact statistical mechanics treatment of simple inhomogeneous few-body s...
We apply the Barker-Henderson (BH) perturbation theory to the study of a Lennard-Jones (LJ) fluid co...
The partition function of two hard spheres in a hard-wall pore is studied, appealing to a graph repr...
AbstractWe describe a grand-canonical Monte Carlo simulation of a hard sphere fluid confined to poro...
We propose a new type of effective densities via the potential distribution theorem. These densities...
have taken place in parallel with an improvement in our understanding of the molecular structure of ...
We describe a grand-canonical Monte Carlo simulation of a hard sphere fluid confined to porous media...
Using the replica Omstein-Zernike (ROZ) integral equations, the effective interaction between hard s...
In this work, the effective interaction between hard sphere colloidal particles in the. presence of ...
International audienceThis study is devoted to the effective elastic properties of nanoporous media ...
This thesis is a contribution to the understanding of solvent effects on the thermodynamic propertie...
Despite the lack of attractive interaction potentials in hard-sphere (HS) colloidal dispersions, a c...
In Part I of this study, we extended a formal theory for the statistical mechanics of a nonuniform c...
The SPT2 approach is based on the scaled particle theory and developed for the description of thermo...
The scaled particle theory is applied to a description of thermodynamic properties of one-dimensiona...
This work is devoted to the exact statistical mechanics treatment of simple inhomogeneous few-body s...
We apply the Barker-Henderson (BH) perturbation theory to the study of a Lennard-Jones (LJ) fluid co...
The partition function of two hard spheres in a hard-wall pore is studied, appealing to a graph repr...
AbstractWe describe a grand-canonical Monte Carlo simulation of a hard sphere fluid confined to poro...
We propose a new type of effective densities via the potential distribution theorem. These densities...
have taken place in parallel with an improvement in our understanding of the molecular structure of ...
We describe a grand-canonical Monte Carlo simulation of a hard sphere fluid confined to porous media...
Using the replica Omstein-Zernike (ROZ) integral equations, the effective interaction between hard s...
In this work, the effective interaction between hard sphere colloidal particles in the. presence of ...
International audienceThis study is devoted to the effective elastic properties of nanoporous media ...
This thesis is a contribution to the understanding of solvent effects on the thermodynamic propertie...
Despite the lack of attractive interaction potentials in hard-sphere (HS) colloidal dispersions, a c...
In Part I of this study, we extended a formal theory for the statistical mechanics of a nonuniform c...