L.; Fulcrand, R.; Bocquet, L., Large Apparent Electric Size of Solid-State Nanopores Due to Spatially Extended Surface Conduction

Lee, C · 2012

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Effects of Surface Trapping and Contact Ion Pairing on Ion Transport in Nanopores

cond-mat.mes-hall · 2019-07-27 · unverdicted · novelty 5.0

Simulations show contact ion pairing and surface trapping reduce Na+ and Cl- mobility in sub-6 nm nanopores, with opposite non-monotonic trends versus surface charge density for the two ions.

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Effects of Surface Trapping and Contact Ion Pairing on Ion Transport in Nanopores cond-mat.mes-hall · 2019-07-27 · unverdicted · none · ref 39
Simulations show contact ion pairing and surface trapping reduce Na+ and Cl- mobility in sub-6 nm nanopores, with opposite non-monotonic trends versus surface charge density for the two ions.

L.; Fulcrand, R.; Bocquet, L., Large Apparent Electric Size of Solid-State Nanopores Due to Spatially Extended Surface Conduction

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