In our previous study [Planková et al., EPJWeb. Conf. 92, 02071 (2015)], several molecular simulations of vapor-liquid phase interfaces for pure water were performed using the DL_POLY Classic software. The TIP4P/2005 molecular model was successfully used for the modeling of the density profile and the thickness of phase interfaces together with the temperature dependence of the surface tension. In the current study, the extended simple point charge (SPC/E) model for water was employed for the investigation of vapor-liquid phase interfaces over a wide temperature range from 250 K to 600 K. The TIP4P/2005 model was also used with the temperature step of 25 K to obtain more consistent data compared to our previous study. Results of the new sim...
International audienceWe report a mesoscale modeling of the liquid-vapor interface of water. A mesos...
Molecular dynamics simulations of various water models – SPC/E (extended simple point charge), TIP4P...
We examine the thermodynamics of the liquid–vapor interface by direct calculation of the surface ent...
In our previous study [Planková et al., EPJWeb. Conf. 92, 02071 (2015)], several molecular simulatio...
Molecular dynamics simulations for water were run using the TIP4P/2005 model for temperatures rangi...
Molecular simulations were carried out using the self-consistent point dipole polarizability model (...
We consider the calculation of the surface tension from simulations of several models of water, such...
Initial simulated values of the surface tension for the SPC/E water model have indicated excellent a...
We apply isothermal-isobaric Monte Carlo molecular simulation to measure the vapor-phase fugacity co...
The authors performed Gibbs ensemble simulations on the vapor-liquid equilibrium of water to investi...
Surface tensions for liquid-vapor (lv), solid-liquid (sl), and solid-vapor (sv) interfaces are calcu...
To explore the wetting behavior of alkanes on bulk water interfaces, molecular dynamics (MD) simulat...
In this work we investigate whether experimental surface tension measurements, which are less sen...
We have performed long molecular dynamics simulations of water using four popular water models, name...
International audienceWe present a revised version of the water many-body model TCPE [M. Masella and...
International audienceWe report a mesoscale modeling of the liquid-vapor interface of water. A mesos...
Molecular dynamics simulations of various water models – SPC/E (extended simple point charge), TIP4P...
We examine the thermodynamics of the liquid–vapor interface by direct calculation of the surface ent...
In our previous study [Planková et al., EPJWeb. Conf. 92, 02071 (2015)], several molecular simulatio...
Molecular dynamics simulations for water were run using the TIP4P/2005 model for temperatures rangi...
Molecular simulations were carried out using the self-consistent point dipole polarizability model (...
We consider the calculation of the surface tension from simulations of several models of water, such...
Initial simulated values of the surface tension for the SPC/E water model have indicated excellent a...
We apply isothermal-isobaric Monte Carlo molecular simulation to measure the vapor-phase fugacity co...
The authors performed Gibbs ensemble simulations on the vapor-liquid equilibrium of water to investi...
Surface tensions for liquid-vapor (lv), solid-liquid (sl), and solid-vapor (sv) interfaces are calcu...
To explore the wetting behavior of alkanes on bulk water interfaces, molecular dynamics (MD) simulat...
In this work we investigate whether experimental surface tension measurements, which are less sen...
We have performed long molecular dynamics simulations of water using four popular water models, name...
International audienceWe present a revised version of the water many-body model TCPE [M. Masella and...
International audienceWe report a mesoscale modeling of the liquid-vapor interface of water. A mesos...
Molecular dynamics simulations of various water models – SPC/E (extended simple point charge), TIP4P...
We examine the thermodynamics of the liquid–vapor interface by direct calculation of the surface ent...