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Literature DB >> 19256800

Weak- and strong-coupling electrostatic interactions between asymmetrically charged planar surfaces.

M Kanduc¹, M Trulsson, A Naji, Y Burak, J Forsman, R Podgornik.

Abstract

We compare weak- and strong-coupling theory of counterion-mediated electrostatic interactions between two asymmetrically charged plates with extensive Monte Carlo simulations. Analytical results in both weak- and strong-coupling limits compare excellently with simulations in their respective regimes of validity. The system shows a surprisingly rich structure in terms of interactions between the surfaces as well as fundamental qualitative differences in behavior in the weak- and the strong-coupling limits.

Mesh：

Year: 2008 PMID： 19256800 DOI： 10.1103/PhysRevE.78.061105

Source DB: PubMed Journal: Phys Rev E Stat Nonlin Soft Matter Phys ISSN： 1539-3755

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Cited

6 in total

1. One-dimensional counterion gas between charged surfaces: exact results compared with weak- and strong-coupling analyses.

Authors: David S Dean; Ron R Horgan; Ali Naji; Rudolf Podgornik
Journal: J Chem Phys Date: 2009-03-07 Impact factor: 3.488

6. Potential of mean force between oppositely charged nanoparticles: A comprehensive comparison between Poisson-Boltzmann theory and Monte Carlo simulations.

Authors: Jin-Si Zhang; Xi Zhang; Zhong-Liang Zhang; Zhi-Jie Tan
Journal: Sci Rep Date: 2017-10-26 Impact factor: 4.379

6 in total

Weak- and strong-coupling electrostatic interactions between asymmetrically charged planar surfaces.

1. One-dimensional counterion gas between charged surfaces: exact results compared with weak- and strong-coupling analyses.

2. Counter-ions at charged walls: two-dimensional systems.

Review 3. Biomolecular electrostatics and solvation: a computational perspective.

4. Electrostatic correlations near charged planar surfaces.

5. Repulsion between oppositely charged planar macroions.

6. Potential of mean force between oppositely charged nanoparticles: A comprehensive comparison between Poisson-Boltzmann theory and Monte Carlo simulations.