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Literature DB >> 16241693

Conductance of ion channels and nanopores with charged walls: a toy model.

Abstract

We consider ion transport through protein ion channels in lipid membranes and water-filled nanopores in silicon films. It is known that, due to the large ratio of dielectric constants of water and the surrounding material, an ion placed inside the channel faces a large electrostatic self-energy barrier. The barrier leads to an exponentially large resistance of the channel. We study reduction of the electrostatic barrier by immobile charges located on the internal walls of the channel. We show that the barrier practically vanishes already at relatively small concentration of wall charges.

Entities: Chemical

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Year: 2005 PMID： 16241693 DOI： 10.1103/PhysRevLett.95.148101

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

7 in total

1. Continuum theory of lipid bilayer electrostatics.

Authors: R Gerami; R F Bruinsma
Journal: Eur Phys J E Soft Matter Date: 2009-09-15 Impact factor: 1.890

2. Observation of ionic Coulomb blockade in nanopores.

Authors: Jiandong Feng; Ke Liu; Michael Graf; Dumitru Dumcenco; Andras Kis; Massimiliano Di Ventra; Aleksandra Radenovic
Journal: Nat Mater Date: 2016-03-28 Impact factor: 43.841

3. Dehydration and ionic conductance quantization in nanopores.

Authors: Michael Zwolak; James Wilson; Massimiliano Di Ventra
Journal: J Phys Condens Matter Date: 2010-11-17 Impact factor: 2.333

4. Dynamics of voltage profile in enzymatic ion transporters, demonstrated in electrokinetics of proton pumping rhodopsin.

Authors: Rolf Hagedorn; Dietrich Gradmann; Peter Hegemann
Journal: Biophys J Date: 2008-07-11 Impact factor: 4.033

Conductance of ion channels and nanopores with charged walls: a toy model.

1. Continuum theory of lipid bilayer electrostatics.

2. Observation of ionic Coulomb blockade in nanopores.

3. Dehydration and ionic conductance quantization in nanopores.

4. Dynamics of voltage profile in enzymatic ion transporters, demonstrated in electrokinetics of proton pumping rhodopsin.

5. Quantized ionic conductance in nanopores.

Review 6. Dynamics of Ion Channels via Non-Hermitian Quantum Mechanics.

Review 7. 2D Material Nanofiltration Membranes: From Fundamental Understandings to Rational Design.