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Electrophoresis of a polyelectrolyte through a nanopore
Sandip Ghosal
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Corresponding author for this work
Mechanical Engineering
Research output
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Contribution to journal
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Article
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peer-review
70
Scopus citations
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Keyphrases
Nanopore
100%
Polyelectrolyte
100%
Electrophoresis
100%
Translocation Efficiency
66%
Physical Parameters
33%
Explicit Formula
33%
Viscous Force
33%
Pore Geometry
33%
Secondary Effects
33%
Weak Dependence
33%
Polymer Length
33%
Hydrodynamic Model
33%
DNA Translocation
33%
Electrical Forces
33%
Continuum Electrostatics
33%
Silicon Membrane
33%
Engineering
Electrophoretic Technology
100%
Nanopore
100%
Experimental Measurement
33%
Pore Geometry
33%
Physical Parameter
33%
Viscous Force
33%
Hydrodynamic Model
33%
Hydrodynamics
33%
Explicit Formula
33%
Electrostatic Force
33%
Material Science
Electrophoretic Technology
100%
Nanopore
100%
Polyelectrolyte
100%
Hydrodynamic Model
33%
Hydrodynamics
33%
Silicon
33%
Chemical Engineering
Electrophoretic Technology
100%