Interactions between amphoteric surfaces with strongly overlapping double layers

M. Vis; Remco Tuinier; Bonny W.M. Kuipers; Agienus Vrij; Albert P. Philipse

doi:10.1039/c8sm00662h

Interactions between amphoteric surfaces with strongly overlapping double layers

M. Vis^*
, Remco Tuinier
, Bonny W.M. Kuipers
, Agienus Vrij
, Albert P. Philipse

^*Corresponding author for this work

Eindhoven University of Technology

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

The entropic repulsion between strongly overlapping electrical double-layers from two parallel amphoteric plates is described via the Donnan equilibrium in the limit of zero electric field. The plates feature charge-regulation and the inter-plate solution is in equilibrium with a reservoir of a monovalent electrolyte solution. A finite electric potential and disjoining pressure is found at contact between the plates, due to a complete discharging of the plates. For low potentials, the decay of potential and pressure is fully governed by a characteristic length scale and the contact potential. Additionally, for large separations we find a universal inverse square decay of disjoining pressure, irrespective of the contact potential. The results of the Donnan theory show quantitative agreement with self-consistent field computations that solve the full Poisson equation.

Original language	English
Pages (from-to)	4702-4710
Number of pages	9
Journal	Soft Matter
Volume	14
Issue number	23
DOIs	https://doi.org/10.1039/c8sm00662h
Publication status	Published - 2018

Funding

M. V. and R. T. would like to thank Prof. Frans Leermakers for providing the SFbox software package. M. V. acknowledges the Netherlands Organisation for Scientific Research (NWO) for a Veni grant (no. 722.017.005). The authors would like to thank Landman et al.16 for sharing a preprint of their manuscript.

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title = "Interactions between amphoteric surfaces with strongly overlapping double layers",

abstract = "The entropic repulsion between strongly overlapping electrical double-layers from two parallel amphoteric plates is described via the Donnan equilibrium in the limit of zero electric field. The plates feature charge-regulation and the inter-plate solution is in equilibrium with a reservoir of a monovalent electrolyte solution. A finite electric potential and disjoining pressure is found at contact between the plates, due to a complete discharging of the plates. For low potentials, the decay of potential and pressure is fully governed by a characteristic length scale and the contact potential. Additionally, for large separations we find a universal inverse square decay of disjoining pressure, irrespective of the contact potential. The results of the Donnan theory show quantitative agreement with self-consistent field computations that solve the full Poisson equation.",

author = "M. Vis and Remco Tuinier and Kuipers, \{Bonny W.M.\} and Agienus Vrij and Philipse, \{Albert P.\}",

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AU - Vis, M.

AU - Tuinier, Remco

AU - Kuipers, Bonny W.M.

AU - Vrij, Agienus

AU - Philipse, Albert P.

PY - 2018

Y1 - 2018

N2 - The entropic repulsion between strongly overlapping electrical double-layers from two parallel amphoteric plates is described via the Donnan equilibrium in the limit of zero electric field. The plates feature charge-regulation and the inter-plate solution is in equilibrium with a reservoir of a monovalent electrolyte solution. A finite electric potential and disjoining pressure is found at contact between the plates, due to a complete discharging of the plates. For low potentials, the decay of potential and pressure is fully governed by a characteristic length scale and the contact potential. Additionally, for large separations we find a universal inverse square decay of disjoining pressure, irrespective of the contact potential. The results of the Donnan theory show quantitative agreement with self-consistent field computations that solve the full Poisson equation.

AB - The entropic repulsion between strongly overlapping electrical double-layers from two parallel amphoteric plates is described via the Donnan equilibrium in the limit of zero electric field. The plates feature charge-regulation and the inter-plate solution is in equilibrium with a reservoir of a monovalent electrolyte solution. A finite electric potential and disjoining pressure is found at contact between the plates, due to a complete discharging of the plates. For low potentials, the decay of potential and pressure is fully governed by a characteristic length scale and the contact potential. Additionally, for large separations we find a universal inverse square decay of disjoining pressure, irrespective of the contact potential. The results of the Donnan theory show quantitative agreement with self-consistent field computations that solve the full Poisson equation.

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DO - 10.1039/c8sm00662h

M3 - Article

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SN - 1744-683X

VL - 14

SP - 4702

EP - 4710

JO - Soft Matter

JF - Soft Matter

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ER -

Interactions between amphoteric surfaces with strongly overlapping double layers

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