Add to ORKGThe vapor-liquid coexistence properties of mercury are determined from molecular simulation using empirical intermolecular potentials, ab initio two-body potentials, and an effective multibody intermolecular potential. Comparison with experiment shows that pair-interactions alone are inadequate to account for the vapor-liquid coexistence properties of mercury. It is shown that very good agreement between theory and experiment can be obtained by combining an accurate two-body ab initio potential with the addition of an empirically determined multibody contribution. As a consequence of this multibody contribution, we can reliably predict mercury's phase coexistence properties and the heats of vaporization. The pair distribution function of me...
Molecular simulation methods such as Monte Carlo simulation and both equilibrium and nonequilibrium...
We show how to extend the Hudson-McCoubrey combining rules, which were de-rived assuming the Lennard...
The Gibbs ensemble algorithm is implemented to determine the vapour- liquid and liquid-liquid phase ...
The vapor–liquid coexistence properties of mercury are determined from molecular simulation using em...
Gibbs ensemble simulations using ab initio intermolecular potentials are reported for the vapour--li...
Advances in molecular simulation algorithms coupled with rapid growth in the calculation speed of mo...
Gibbs ensemble simulations using ab initio intermolecular potentials are reported for the vapour–liq...
Gibbs ensemble Monte Carlo simulations are reported for the vapor-liquid phase coexistence of argon,...
Historically, reliable data for the thermophysical properties of fluids could only be obtained from ...
Motivated by growing interest in interfacial properties of liquid mercury we investigate by atomisti...
Knowledge of physical properties of pure components and mixtures is essential when designing new pro...
The phase behaviour of both pure systems and binary mixtures has been widely studied by molecular si...
We have carried out molecular-dynamics simulations for nonmetallic fluid mercury in liquid and vapor...
The role of interatomic interactions on the solid-liquid and vapor-liquid equilibria of neon is inve...
The vapor-liquid equilibria of 20 substances, most of them widely used as organic solvents, were obt...
Molecular simulation methods such as Monte Carlo simulation and both equilibrium and nonequilibrium...
We show how to extend the Hudson-McCoubrey combining rules, which were de-rived assuming the Lennard...
The Gibbs ensemble algorithm is implemented to determine the vapour- liquid and liquid-liquid phase ...
The vapor–liquid coexistence properties of mercury are determined from molecular simulation using em...
Gibbs ensemble simulations using ab initio intermolecular potentials are reported for the vapour--li...
Advances in molecular simulation algorithms coupled with rapid growth in the calculation speed of mo...
Gibbs ensemble simulations using ab initio intermolecular potentials are reported for the vapour–liq...
Gibbs ensemble Monte Carlo simulations are reported for the vapor-liquid phase coexistence of argon,...
Historically, reliable data for the thermophysical properties of fluids could only be obtained from ...
Motivated by growing interest in interfacial properties of liquid mercury we investigate by atomisti...
Knowledge of physical properties of pure components and mixtures is essential when designing new pro...
The phase behaviour of both pure systems and binary mixtures has been widely studied by molecular si...
We have carried out molecular-dynamics simulations for nonmetallic fluid mercury in liquid and vapor...
The role of interatomic interactions on the solid-liquid and vapor-liquid equilibria of neon is inve...
The vapor-liquid equilibria of 20 substances, most of them widely used as organic solvents, were obt...
Molecular simulation methods such as Monte Carlo simulation and both equilibrium and nonequilibrium...
We show how to extend the Hudson-McCoubrey combining rules, which were de-rived assuming the Lennard...
The Gibbs ensemble algorithm is implemented to determine the vapour- liquid and liquid-liquid phase ...