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Interactions of polarizable media in water: A molecular dynamics approach
A. Wynveen, F. Bresme
Physics and Astronomy (Twin Cities)
Research output
:
Contribution to journal
›
Article
›
peer-review
27
Scopus citations
Overview
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Keyphrases
Solute
100%
Polarizable
100%
Molecular Dynamics Approach
100%
Permittivity
50%
Desalting Transition
33%
Dielectric Discontinuity
33%
Solvation
16%
Dielectric
16%
Efficient Simulation
16%
Computationally Efficient
16%
Solvation Force
16%
High-permittivity
16%
Nanometre
16%
Simulation Methodology
16%
Dielectric Medium
16%
Macroscopic Model
16%
Continuum Dielectric
16%
Surface Tension Force
16%
Low Permittivity
16%
Solute Separation
16%
Hydrophobic Solute
16%
Vapor Cavities
16%
Engineering
Dielectric Discontinuity
100%
Nanometre
50%
Hydrophobic
50%
Dielectrics
50%
Macroscopic Model
50%
Surface Tension Force
50%
Dielectric Medium
50%
Solvation Force
50%
Chemistry
Molecular Dynamics
100%
Permittivity
100%
Dielectric Material
80%
Solvation
40%
formation
20%
Material Science
Permittivity
100%
Dielectric Material
80%
Solvation
40%
Surface Tension
20%