Flow-induced surface charge heterogeneity in electrokinetics due to Stern-layer conductance coupled to reaction kinetics

Flow-induced surface charge heterogeneity in electrokinetics due to Stern-layer conductance coupled to reaction kinetics

We theoretically study the electrokinetic problem of a pressure-induced liquid flow through a narrow long channel with charged walls, going beyond the classical Helmholtz-Schmolukowski picture by considering the surprisingly strong combined effect of (i) Stern layer conductance and (ii) dynamic char...

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Veröffentlicht in:arXiv.org 2018-05
Hauptverfasser: Werkhoven, B L, Everts, J C, Samin, S, R van Roij
Format: Artikel
Sprache:eng
Schlagworte:
Electric flux
Electrokinetics
First principles
Fluid dynamics
Liquid flow
Organic chemistry
Physics - Soft Condensed Matter
Pressure drop
Reaction kinetics
Resistance
Streaming potential
Surface charge
Water flow
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Zusammenfassung:We theoretically study the electrokinetic problem of a pressure-induced liquid flow through a narrow long channel with charged walls, going beyond the classical Helmholtz-Schmolukowski picture by considering the surprisingly strong combined effect of (i) Stern layer conductance and (ii) dynamic charge-regulating rather than fixed surface charges. We find that the water flow induces, apart from the well-known streaming potential, also a strongly heterogeneous surface charge and zeta-potential on chemically homogeneous channel walls. Moreover, we identify a novel steady state with a nontrivial 3D electric flux with 2D surface charges acting as sources and sinks. For a pulsed pressure drop our findings also provide a first-principles explanation for ill-understood experiments on the effect of flow on interfacial chemistry [D. Lis et al., Science 344, 1138 (2014)].
ISSN:2331-8422
DOI:10.48550/arxiv.1805.09664