We describe a new local grand canonical Monte Carlo method to treat fluids in pores in chemical equilibrium with a reference bulk. The method is applied to Lennard-Jones particles in pores of different geometry and is shown to be much more accurate and efficient than other techniques such as traditional grand canonical simulations or Widom's particle insertion method. It utilizes a penalty potential to create a gas phase, which is in equilibrium with a more dense liquid component in the pore. Grand canonical Monte Carlo moves are employed in the gas phase, and the system then maintains chemical equilibrium by "diffusion" of particles. This creates an interface, which means that the confined fluid needs to occupy a large enough volume so tha...
Grand canonical Monte Carlo simulations are reported for restricted primitive model ions confined be...
We describe a grand-canonical Monte Carlo simulation of a hard sphere fluid confined to porous media...
In a previous paper a new simulation method was introduced for the determination of vapour-liquid eq...
We describe a new local grand canonical Monte Carlo method to treat fluids in pores in chemical equi...
In this work, we describe a new Monte Carlo (MC) simulation method to investigate highly coupled flu...
International audienceCommonly, the confinement effects are studied from the grand canonical Monte C...
Correlation between phase behaviors of a Lennard-Jones fluid in and outside a pore is examined over ...
A novel Monte Carlo scheme, MTZ-GCMC, utilising the ‘mass transfer zone’ (MTZ) between the fluid pha...
The grand canonical Monte Carlo (GCMC) method was applied to study the equilibrium between bulk and ...
The accurate description of the behavior of fluids in nanoporous materials is of great importance fo...
We investigate methods for the treatment of long-range interactions in the context of grand canonica...
Behaviour of electrolytes confined in cylindrical and slit pores are studied by computer simulations...
The accurate description of the behavior of fluids in nanoporous materials is of great importance fo...
AbstractWe describe a grand-canonical Monte Carlo simulation of a hard sphere fluid confined to poro...
Grand canonical ensemble Monte Carlo simulations are performed to investigate the concentrations of ...
Grand canonical Monte Carlo simulations are reported for restricted primitive model ions confined be...
We describe a grand-canonical Monte Carlo simulation of a hard sphere fluid confined to porous media...
In a previous paper a new simulation method was introduced for the determination of vapour-liquid eq...
We describe a new local grand canonical Monte Carlo method to treat fluids in pores in chemical equi...
In this work, we describe a new Monte Carlo (MC) simulation method to investigate highly coupled flu...
International audienceCommonly, the confinement effects are studied from the grand canonical Monte C...
Correlation between phase behaviors of a Lennard-Jones fluid in and outside a pore is examined over ...
A novel Monte Carlo scheme, MTZ-GCMC, utilising the ‘mass transfer zone’ (MTZ) between the fluid pha...
The grand canonical Monte Carlo (GCMC) method was applied to study the equilibrium between bulk and ...
The accurate description of the behavior of fluids in nanoporous materials is of great importance fo...
We investigate methods for the treatment of long-range interactions in the context of grand canonica...
Behaviour of electrolytes confined in cylindrical and slit pores are studied by computer simulations...
The accurate description of the behavior of fluids in nanoporous materials is of great importance fo...
AbstractWe describe a grand-canonical Monte Carlo simulation of a hard sphere fluid confined to poro...
Grand canonical ensemble Monte Carlo simulations are performed to investigate the concentrations of ...
Grand canonical Monte Carlo simulations are reported for restricted primitive model ions confined be...
We describe a grand-canonical Monte Carlo simulation of a hard sphere fluid confined to porous media...
In a previous paper a new simulation method was introduced for the determination of vapour-liquid eq...