Add to ORKGTransport and surface interactions of proteins in nanopore membranes play a key role in many processes of biomedical importance. Although the use of porous materials provides a large surface-to-volume ratio, the efficiency of the operations is often determined by transport behavior, and this is complicated by the fact that transport paths (i.e., the pores) are frequently of molecular dimensions. Under these conditions, wall effects become significant, with the mobility of molecules being affected by hydrodynamic interactions between protein molecules and the wall. Modeling of transport in pores is normally carried out at the continuum level, making use of such parameters as hindrance coefficients; these in turn are typically estimated using...
The progress of molecular manipulation technology has made it possible to conduct controlled experim...
Recent experimental data on the diffusive transport of globular protein molecules through nanopores ...
<p>Due to intrinsic properties, solid-state nanopores are widely used in nanopore technology. Differ...
Transport and surface interactions of proteins in nanopore membranes play a key role in many proces...
We use Molecular Dynamics and Monte Carlo simulations to examine molecular transport phenomena in na...
AbstractWe use Molecular Dynamics and Monte Carlo simulations to examine molecular transport phenome...
The transport of molecules through nanoscale confined space is relevant in biology, biosensing, and ...
The diffusion of two similar molecular weight proteins, bovine serum albumin (BSA) and bovine haemog...
We report in this account our efforts in the development of a novel multiscale simulation tool for ...
Single-channel conductance measurements in biological pores have demonstrated the importance of inte...
Abstract. The progress of molecular manipulation technology has made it possible to conduct controll...
We present a detailed description of biopolymer translocation through a nanopore in the presence of ...
Mass transport limitations and surface interactions are important phenomena in microfluidic devices....
This article provides a review of the recent theory of transport in nanopores developed in the autho...
We study the phenomena of translocation of a globular protein through a fluctuating cylindrical nano...
The progress of molecular manipulation technology has made it possible to conduct controlled experim...
Recent experimental data on the diffusive transport of globular protein molecules through nanopores ...
<p>Due to intrinsic properties, solid-state nanopores are widely used in nanopore technology. Differ...
Transport and surface interactions of proteins in nanopore membranes play a key role in many proces...
We use Molecular Dynamics and Monte Carlo simulations to examine molecular transport phenomena in na...
AbstractWe use Molecular Dynamics and Monte Carlo simulations to examine molecular transport phenome...
The transport of molecules through nanoscale confined space is relevant in biology, biosensing, and ...
The diffusion of two similar molecular weight proteins, bovine serum albumin (BSA) and bovine haemog...
We report in this account our efforts in the development of a novel multiscale simulation tool for ...
Single-channel conductance measurements in biological pores have demonstrated the importance of inte...
Abstract. The progress of molecular manipulation technology has made it possible to conduct controll...
We present a detailed description of biopolymer translocation through a nanopore in the presence of ...
Mass transport limitations and surface interactions are important phenomena in microfluidic devices....
This article provides a review of the recent theory of transport in nanopores developed in the autho...
We study the phenomena of translocation of a globular protein through a fluctuating cylindrical nano...
The progress of molecular manipulation technology has made it possible to conduct controlled experim...
Recent experimental data on the diffusive transport of globular protein molecules through nanopores ...
<p>Due to intrinsic properties, solid-state nanopores are widely used in nanopore technology. Differ...