Add to ORKGRecently reported synthetic organic nanopore (SONP) can mimic a key feature of natural ion channels, i.e., selective ion transport. However, the physical mechanism underlying the K+/Na+ selectivity for the SONPs is dramatically different from that of natural ion channels. To achieve a better understanding of the selective ion transport in hydrophobic subnanometer channels in general and SONPs in particular, we perform a series of ab initio molecular dynamics simulations to investigate the diffusivity of aqua Na+ and K+ ions in two prototype hydrophobic nanochannels: (i) an SONP with radius of 3.2 Å, and (ii) single-walled carbon nanotubes (CNTs) with radii of 3–5 Å (these radii are comparable to those of the biological potassium K+ channels...
AbstractBiological ion channels are nanoscale transmembrane pores. When water and ions are enclosed ...
The narrow hydrophobic interior of a carbon nanotube (CNT) poses a barrier to the transport of water...
Potential of mean force (PMF) profiles of a single Na+ or K+ ion passing through a cyclic peptide na...
Recently reported synthetic organic nanopore (SONP) can mimic a key feature of natural ion channels,...
We show that narrow hydrophobic pores have an intrinsic ion selectivity by using single-walled carbo...
Narrow hydrophobic regions are a common feature of biological channels, with possible roles in ion-c...
AbstractNarrow hydrophobic regions are a common feature of biological channels, with possible roles ...
The selective rate of specific ion transport across nanoporous material is critical to biological an...
Nanopores have demonstrated an extraordinary ability to allow water molecules to pass through their ...
Biological pores regulate the cellular traffic of a large variety of solutes, often with high select...
The selective transport of K<sup>+</sup> or Na<sup>+</sup> in acqueous solutions by biomembranes is ...
The transport of water and ions across mimicked nanotube membranes with pseudo atoms is studied usin...
Nanofluidic channels confine water and ions down to length scales that are comparable to the sizes o...
Biomimetic nanopores based on membrane-spanning single-walled carbon nanotubes have been designed to...
The transport of hydrated ions through narrow pores is important for a number of processes such as t...
AbstractBiological ion channels are nanoscale transmembrane pores. When water and ions are enclosed ...
The narrow hydrophobic interior of a carbon nanotube (CNT) poses a barrier to the transport of water...
Potential of mean force (PMF) profiles of a single Na+ or K+ ion passing through a cyclic peptide na...
Recently reported synthetic organic nanopore (SONP) can mimic a key feature of natural ion channels,...
We show that narrow hydrophobic pores have an intrinsic ion selectivity by using single-walled carbo...
Narrow hydrophobic regions are a common feature of biological channels, with possible roles in ion-c...
AbstractNarrow hydrophobic regions are a common feature of biological channels, with possible roles ...
The selective rate of specific ion transport across nanoporous material is critical to biological an...
Nanopores have demonstrated an extraordinary ability to allow water molecules to pass through their ...
Biological pores regulate the cellular traffic of a large variety of solutes, often with high select...
The selective transport of K<sup>+</sup> or Na<sup>+</sup> in acqueous solutions by biomembranes is ...
The transport of water and ions across mimicked nanotube membranes with pseudo atoms is studied usin...
Nanofluidic channels confine water and ions down to length scales that are comparable to the sizes o...
Biomimetic nanopores based on membrane-spanning single-walled carbon nanotubes have been designed to...
The transport of hydrated ions through narrow pores is important for a number of processes such as t...
AbstractBiological ion channels are nanoscale transmembrane pores. When water and ions are enclosed ...
The narrow hydrophobic interior of a carbon nanotube (CNT) poses a barrier to the transport of water...
Potential of mean force (PMF) profiles of a single Na+ or K+ ion passing through a cyclic peptide na...