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Literature DB >> 25489206

Electrically generated eddies at an eightfold stagnation point within a nanopore.

Abstract

Electrically generated flows around a thin dielectric plate pierced by a cylindrical hole are computed numerically. The geometry represents that of a single nanopore in a membrane. When the membrane is uncharged, flow is due solely to induced charge electroosmosis, and eddies are generated by the high fields at the corners of the nanopore. These eddies meet at stagnation points. If the geometry is chosen correctly, the stagnation points merge to form a single stagnation point at which four streamlines cross at a point and eight eddies meet.

Year: 2014 PMID： 25489206 PMCID： PMC4247373 DOI： 10.1063/1.4901984

Source DB: PubMed Journal: Phys Fluids (1994) ISSN： 1070-6631 Impact factor: 3.521

5 in total

1 in total

1. A numerical study of the selectivity of an isolated cylindrical or conical nanopore to a charged macro-ion.

Authors: Doyel Pandey; Somnath Bhattacharyya; Sandip Ghosal
Journal: Biomicrofluidics Date: 2019-10-01 Impact factor: 2.800

1 in total

Electrically generated eddies at an eightfold stagnation point within a nanopore.

1. DNA translocation through graphene nanopores.

2. Strong electro-osmotic flows about dielectric surfaces of zero surface charge.

3. Hydrodynamic flow in the vicinity of a nanopore induced by an applied voltage.

4. Graphene as a subnanometre trans-electrode membrane.

5. Electroosmosis in a finite cylindrical pore: simple models of end effects.

1. A numerical study of the selectivity of an isolated cylindrical or conical nanopore to a charged macro-ion.