Issue 36, 2018

Skinny emulsions take on granular matter

Abstract

Our understanding of the structural features of foams and emulsions has advanced significantly over the last 20 years. However, with a search for “super-stable” liquid dispersions, foam and emulsion science employs increasingly complex formulations which create solid-like visco-elastic layers at the bubble/drop surfaces. These lead to elastic, adhesive and frictional forces between bubbles/drops, impacting strongly how they pack and deform against each other, asking for an adaptation of the currently available structural description. The possibility to modify systematically the interfacial properties makes these dispersions ideal systems for the exploration of soft granular materials with complex interactions. We present here a first systematic analysis of the structural features of such a system using a model silicone emulsion containing millimetre-sized polyethylene glycol drops (PEG). Solid-like drop surfaces are obtained by polymeric cross-linking reactions at the PEG–silicone interface. Using a novel droplet-micromanipulator, we highlight the presence of elastic, adhesive and frictional interactions between two drops. We then provide for the first time a full tomographic analysis of the structural features of these emulsions. An in-depth analysis of the angle of repose, local volume fraction distributions, pair correlation functions and the drop deformations for different skin formulations allow us to put in evidence the striking difference with “ordinary” emulsions having fluid-like drop surfaces. While strong analogies with frictional hard-sphere systems can be drawn, these systems display a set of unique features due to the high deformability of the drops which await systematic exploration.

Graphical abstract: Skinny emulsions take on granular matter

Article information

Article type
Paper
Submitted
23 Apr 2018
Accepted
14 Jul 2018
First published
17 Jul 2018

Soft Matter, 2018,14, 7310-7323

Skinny emulsions take on granular matter

A. Giustiniani, S. Weis, C. Poulard, P. H. Kamm, F. García-Moreno, M. Schröter and W. Drenckhan, Soft Matter, 2018, 14, 7310 DOI: 10.1039/C8SM00830B

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