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Ion transport in nanopores with highly overlapping electric double layers
Yoav Green
Department of Mechanical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
23
Scopus citations
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Dive into the research topics of 'Ion transport in nanopores with highly overlapping electric double layers'. Together they form a unique fingerprint.
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Keyphrases
Ion Transport
100%
Nanopore
100%
Overlapping Electric Double Layer
100%
Uniform Potential Model
50%
Exact Solutions
25%
Surface Charge
25%
Small Surfaces
25%
Bulk Concentration
25%
Governing Equation
25%
Electrical Potential
25%
Yariv
25%
Asymptotic Solution
25%
Surface Charge Density
25%
Nanopore Conductance
25%
Surface Potential
25%
Potential Distribution
25%
Nonlinear Poisson-Boltzmann Equation
25%
Power-law Scaling
25%
Gouy-Chapman
25%
Hidden Attributes
25%
Mathematics
Ion Transport
100%
Electric Double Layer
100%
Nonlinear
25%
Asymptotics
25%
Power Law
25%
Charge Density
25%
Boltzmann Equation
25%
Potential Distribution
25%
Bulk Concentration
25%
Engineering
Electric Double Layer
100%
Nanopore
100%
Scaling Law
25%
Potential Distribution
25%
Bulk Concentration
25%
Surface Charge Density
25%
Surface Potential
25%
Boltzmann Equation
25%
Electrical Potential
25%
Computer Science
Approximation (Algorithm)
100%
Potential Distribution
100%
Surface Potential
100%
Material Science
Nanopore
100%
Surface Charge
50%
Density
25%
Chemical Engineering
Scaling Law
100%