Ghosh, Uddipta ; Chakraborty, Suman (2016) Electro-osmosis over inhomogeneously charged surfaces in presence of non-electrostatic ion-ion interactions Physics of Fluids, 28 (6). 062007. ISSN 1070-6631
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Official URL: http://doi.org/10.1063/1.4953999
Related URL: http://dx.doi.org/10.1063/1.4953999
Abstract
In this study, we attempt to bring out a generalized formulation for electro-osmotic flows over inhomogeneously charged surfaces in presence of non-electrostatic ion-ion interactions. To this end, we start with modified electro-chemical potential of the individual species and subsequently use it to derive modified Nernst-Planck equation accounting for the ionic fluxes generated because of the presence of non-electrostatic potential. We establish what we refer to as the Poisson-Helmholtz-Nernst-Planck equations, coupled with the Navier-Stokes equations, to describe the complete transport process. Our analysis shows that the presence of non-electrostatic interactions between the ions results in an excess body force on the fluid, and modifies the osmotic pressure as well, which has hitherto remained unexplored. We further apply our analysis to a simple geometry, in an effort to work out the Smoluchowski slip velocity for thin electrical double layer limits. To this end, we employ singular perturbation and develop a general framework for the asymptotic analysis. Our calculations reveal that the final expression for slip velocity remains the same as that without accounting for non-electrostatic interactions. However, the presence of non-electrostatic interactions along with ion specificity can significantly change the quantitative behavior of Smoluchowski slip velocity. We subsequently demonstrate that the presence of non-electrostatic interactions may significantly alter the effective interfacial potential, also termed as the “Zeta potential.” Our analysis can potentially act as a guide towards the prediction and possibly quantitative determination of the implications associated with the existence of non-electrostatic potential, in an electrokinetic transport process.
Item Type: | Article |
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Source: | Copyright of this article belongs to AIP Publishing |
ID Code: | 134806 |
Deposited On: | 12 Jan 2023 09:23 |
Last Modified: | 12 Jan 2023 09:23 |
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