Effect of electrolyte concentration and symmetry on the heterogeneous surface charge in an electrically gated nanochannel

Kateb, Movaffaq; Fathipour, Morteza; Kolahdouz, Mohammadreza

doi:10.1007/s42452-020-2973-z

Cited by 4 publications

(1 citation statement)

References 41 publications

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“…Knowing the EK interaction between this type of material and different electrolytes results in better understanding and characterization of these processes. Moreover, this knowledge can improve fluid transport in micro and nanoscale microfluidic devices to accomplish better mixing and transport enhancement in microchannels [ 4 , [16] , [17] , [18] ].…”

Section: Introductionmentioning

confidence: 99%

Nonlinear dependence (on ionic strength, pH) of surface charge density and zeta potential in microchannel electrokinetic flow

Chen,

Arancibia-Miranda,

Escudey

et al. 2023

Heliyon

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Section: Introductionmentioning

confidence: 99%

Nonlinear dependence (on ionic strength, pH) of surface charge density and zeta potential in microchannel electrokinetic flow

Chen,

Arancibia-Miranda,

Escudey

et al. 2023

Heliyon

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Investigation on pulsed-electrocoagulation process for the treatment of wet coffee processing wastewater using an aluminum electrode

Asefaw,

Bidira,

Desta

et al. 2024

Sustainable Chemistry for the Environment

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Generalizing electroosmotic-flow predictions over charge-modulated periodic topographies: tuneable far-field effects

Goyal,

Datta,

Chakraborty

2024

J. Fluid Mech.

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The classical Helmholtz–Smoluchowski (HS) model of electroosmosis holds for homogeneously charged interfaces in contact with a fluid layer bearing an equal and opposite net charge. However, inhomogeneities in the surface charge and topography are inevitable, either as practical materials and fabrication artefacts, or at times as deliberately introduced modulations for flow control. In an effort to arrive at an analytically tractable theoretical framework for addressing the underlying electro-mechanical coupling, here, we generalize the traditional HS theory to an extent where both the surface charge and topographies may bear arbitrary and independent periodic forms. Using a spectral-asymptotic approach, we further arrive at closed-form expressions for describing the resulting electroosmotic pumping for topographic features with small characteristic amplitude to pattern period ratio, as relevant for most practical scenarios. We subsequently execute full-scale numerical simulations without any restrictions on the surface charge and topography variations to assess the efficacy of the theoretical framework. The corresponding test beds include distinctive signature patterns – for example, a square-wave surface charge distribution on trapezoidal pit topographies. Our results reveal that the charge–topography interplay induces an anisotropic flow drift, deviating from the classical HS paradigm. This, in turn, provides new quantitative insights into highly selective electroosmotic flow control via judicious design of the charge and topographical patterns, resulting in controllable accentuation, attenuation, nullification, deflection and even complete reversal of the flow. Our analysis further establishes a provision of estimating the zeta potentials of naturally ‘contaminated’ surfaces, as well as explaining the electrophoresis of large inhomogeneous particles; a paradigm that remained to be explored thus far.

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Effect of electrolyte concentration and symmetry on the heterogeneous surface charge in an electrically gated nanochannel

Cited by 4 publications

References 41 publications

Nonlinear dependence (on ionic strength, pH) of surface charge density and zeta potential in microchannel electrokinetic flow

Nonlinear dependence (on ionic strength, pH) of surface charge density and zeta potential in microchannel electrokinetic flow

Investigation on pulsed-electrocoagulation process for the treatment of wet coffee processing wastewater using an aluminum electrode

Generalizing electroosmotic-flow predictions over charge-modulated periodic topographies: tuneable far-field effects

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