The permeation of hydrophobic, cylindrical nanopores by water molecules and ions is investigated under equilibrium and out-of-equilibrium conditions by extensive molecular-dynamics simulations. Neglecting the chemical structure of the confining pore surface, we focus on the effects of pore radius and electric field on permeation. The simulations confirm the intermittent filling of the pore by water, reported earlier under equilibrium conditions for pore radii larger than a critical radius R-c. Below this radius, water can still permeate the pore under the action of a strong electric field generated by an ion concentration imbalance at both ends of the pore embedded in a structureless membrane. The water driven into the channel undergoes con...
The distribution of water and ions in nanoporous membranes, in particular close to their surfaces wi...
A hydrophobic pore of subnanometer dimensions can appear impermeable to an ion even though its radiu...
ABSTRACT: Electroporation, the application of electric fields to alter the permeability of biologica...
A hydrophobic constriction site can act as an efficient barrier to ion and water permeation if its d...
In this study we examined the influence of a transmembrane voltage on the hydrophobic gating of nano...
AbstractBiological ion channels are nanoscale transmembrane pores. When water and ions are enclosed ...
Water-filled pores of nanometer dimensions play important roles in chemistry and biology, e.g., as c...
It is desirable that nanopores that are components of biosensors are gated, i.e. capable ...
Electric control of nanopore permeation by water and solutions enables gating in membrane ion channe...
Equilibrium (HMD) and nonequilibrium molecular dynamics (NEMD) simulations were conducted to investi...
AbstractA detailed picture of water and ion properties in small pores is important for understanding...
Water molecules within biological ion channels are in a nanoconfined environment and therefore exhib...
It is desirable that nanopores that are components of biosensors are gated, i.e., capable of control...
Narrow hydrophobic regions are a common feature of biological channels, with possible roles in ion-c...
Understanding the variation of nanofluidic behavior in the presence of an external electric field is...
The distribution of water and ions in nanoporous membranes, in particular close to their surfaces wi...
A hydrophobic pore of subnanometer dimensions can appear impermeable to an ion even though its radiu...
ABSTRACT: Electroporation, the application of electric fields to alter the permeability of biologica...
A hydrophobic constriction site can act as an efficient barrier to ion and water permeation if its d...
In this study we examined the influence of a transmembrane voltage on the hydrophobic gating of nano...
AbstractBiological ion channels are nanoscale transmembrane pores. When water and ions are enclosed ...
Water-filled pores of nanometer dimensions play important roles in chemistry and biology, e.g., as c...
It is desirable that nanopores that are components of biosensors are gated, i.e. capable ...
Electric control of nanopore permeation by water and solutions enables gating in membrane ion channe...
Equilibrium (HMD) and nonequilibrium molecular dynamics (NEMD) simulations were conducted to investi...
AbstractA detailed picture of water and ion properties in small pores is important for understanding...
Water molecules within biological ion channels are in a nanoconfined environment and therefore exhib...
It is desirable that nanopores that are components of biosensors are gated, i.e., capable of control...
Narrow hydrophobic regions are a common feature of biological channels, with possible roles in ion-c...
Understanding the variation of nanofluidic behavior in the presence of an external electric field is...
The distribution of water and ions in nanoporous membranes, in particular close to their surfaces wi...
A hydrophobic pore of subnanometer dimensions can appear impermeable to an ion even though its radiu...
ABSTRACT: Electroporation, the application of electric fields to alter the permeability of biologica...