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Transport of ions in hydrophobic nanotubes

Olga I. Vinogradova, Elena F. Silkina, Evgeny S. Asmolov

2022Physics of Fluids27 citationsDOI

Abstract

The theory of electrokinetic ion transport in cylindrical channels of a fixed surface charge density is revisited. Attention is focused on the impact of the hydrophobic slippage and mobility of adsorbed surface charges. We formulate generalized Onsager relations for a cylinder of an arbitrary radius and then derive exact expressions for the mean electro-osmotic mobility and conductivity. To employ these expressions, we perform additional electrostatic calculations with a special focus on the non-linear electrostatic effects. Our theory provides a simple explanation of a giant enhancement of the electrokinetic mobility and conductivity of hydrophobic nanotubes by highlighting the role of appropriate electrostatic and hydrodynamic length scales and their ratios. We also propose a novel interpretation of zeta potentials of cylindrical channels.

Topics & Concepts

Electrokinetic phenomenaPhysicsSlippageRADIUSElectrostaticsConductivityZeta potentialCharge densitySurface chargeIonCharge (physics)Chemical physicsCylinderClassical mechanicsMechanicsNanotechnologyNanoparticleGeometryQuantum mechanicsMaterials scienceComposite materialMathematicsComputer scienceComputer securityNanopore and Nanochannel Transport StudiesElectrostatics and Colloid InteractionsGeophysical and Geoelectrical Methods
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