Special Issue: Thermodynamics 2011 ConferenceInternational audienceWe report the self-diffusion coefficients and hindrance factor for the diffusion of ions into cylindrical hydrophilic silica nanopores (hydrated silica) determined from molecular dynamics (MD) simulations. We make a comparison with the hindered diffusion coefficients used in continuum-based models of nanofiltration (NF). Hindrance factors for diffusion estimated from the macroscopic hydrodynamic theory were found to be in fair quantitative agreement with MD simulations for a protonated pore, but they strongly overestimate diffusion inside a deprotonated pore
A hydrophobic pore of subnanometer dimensions can appear impermeable to an ion even though its radiu...
Ever increasing control over the shape and form of a material's nanoscale features provokes the purs...
We present a statistical model for solving and predicting the transport of large molecules through s...
Nanopores have demonstrated an extraordinary ability to allow water molecules to pass through their ...
Nanoporous solids are ubiquitous in chemical, energy, and environmental processes, where controlled ...
Molecular dynamics simulations are carried out to determine the effects of channel wall structure on...
Mechanisms governing transfer of ions through nanofiltration membranes are complex and it is primord...
The class of biological macromolecules known as ion channels are becoming of great interest to physi...
Molecular dynamics simulations were employed to investigate diffusion and structural properties of w...
Although nanofiltration (NF) has attracted increasing attention over the recent years, its current i...
This thesis discusses the molecular dynamics simulation to determine the density distribution and di...
La récupération d'hydrocarbures non conventionnels fait partie des enjeux énergétiques majeurs. Ils ...
Passive transport of molecules through nanopores is characterized by the interaction of molecules wi...
The dynamic properties of electrolytes in nanopores were studied using the equilibrium and non-equil...
In this study a series of different molecular weight PEG solutions have been characterised for parti...
A hydrophobic pore of subnanometer dimensions can appear impermeable to an ion even though its radiu...
Ever increasing control over the shape and form of a material's nanoscale features provokes the purs...
We present a statistical model for solving and predicting the transport of large molecules through s...
Nanopores have demonstrated an extraordinary ability to allow water molecules to pass through their ...
Nanoporous solids are ubiquitous in chemical, energy, and environmental processes, where controlled ...
Molecular dynamics simulations are carried out to determine the effects of channel wall structure on...
Mechanisms governing transfer of ions through nanofiltration membranes are complex and it is primord...
The class of biological macromolecules known as ion channels are becoming of great interest to physi...
Molecular dynamics simulations were employed to investigate diffusion and structural properties of w...
Although nanofiltration (NF) has attracted increasing attention over the recent years, its current i...
This thesis discusses the molecular dynamics simulation to determine the density distribution and di...
La récupération d'hydrocarbures non conventionnels fait partie des enjeux énergétiques majeurs. Ils ...
Passive transport of molecules through nanopores is characterized by the interaction of molecules wi...
The dynamic properties of electrolytes in nanopores were studied using the equilibrium and non-equil...
In this study a series of different molecular weight PEG solutions have been characterised for parti...
A hydrophobic pore of subnanometer dimensions can appear impermeable to an ion even though its radiu...
Ever increasing control over the shape and form of a material's nanoscale features provokes the purs...
We present a statistical model for solving and predicting the transport of large molecules through s...