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Issue 48, 2007
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Ion partitioning at the oil–water interface as a source of tunable electrostatic effects in emulsions with colloids

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Abstract

We present a combined experimental and theoretical investigation of the surprisingly strong electrostatic effects that can occur in mixtures of low- and high-polar liquids (e.g. oil–water emulsions), here in the presence of colloidal particles. For our experiments, we used confocal microscopy imaging, supplemented with electrophoresis and conductivity measurements. Theoretically, we studied our systems by means of a modified Poisson–Boltzmann theory, which takes into account image charge effects and the electrostatic self-energies of the micro-ions in the different dielectric media. Our results show that the unequal partitioning of micro-ions between the two liquid phases is the common driving force behind most of the observed electrostatic effects. The structural signatures of these effects typically develop on a time scale of hours to days and are qualitatively well-described by our theory. We demonstrate how the partitioning process and its associated phenomena can be controlled by shifting the balance of the interlocked ionic dissociation and partitioning equilibria. Moreover, we present strong experimental proof that the two-dimensional colloidal crystals at the oil–water interface are due to long-ranged Coulombic repulsion through the oil phase. The acquired insight in the role of electrostatics in oil–water emulsions is important for understanding the interactions in particle-stabilized (‘Pickering’) and charge-stabilized emulsions, emulsion production, encapsulation and self-assembly.

Graphical abstract: Ion partitioning at the oil–water interface as a source of tunable electrostatic effects in emulsions with colloids

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Article information


Submitted
24 Jul 2007
Accepted
21 Sep 2007
First published
05 Oct 2007

Phys. Chem. Chem. Phys., 2007,9, 6405-6414
Article type
Paper

Ion partitioning at the oil–water interface as a source of tunable electrostatic effects in emulsions with colloids

M. E. Leunissen, J. Zwanikken, R. van Roij, P. M. Chaikin and A. van Blaaderen, Phys. Chem. Chem. Phys., 2007, 9, 6405
DOI: 10.1039/B711300E

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