Influence of a mixed particle/surfactant emulsifier system on water-in-oil emulsion stability

•Synergic stabilization of W/O emulsion was allowed using particles/surfactant system.•Emulsion stability was reduced with the increase of surfactant concentration.•Maximal emulsion stability was obtained with a small amount of surfactant.•Emulsion was stabilized by particular 3D network with fine d...

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Bibliographic Details
Published in:Colloids and surfaces. A, Physicochemical and engineering aspects Physicochemical and engineering aspects, 2014-09, Vol.457, p.49-57
Main Authors: Nesterenko, Alla, Drelich, Audrey, Lu, Huiling, Clausse, Danièle, Pezron, Isabelle
Format: Article
Language:English
Subjects:
Chemical and Process Engineering
Chemical engineering
Chemical Sciences
Droplets
Emulsifiers
Emulsion stability
Emulsions
Engineering Sciences
Formations
Mixed particle/surfactant emulsifier
Pickering emulsion
Rheological properties
Rheology
Silica particles
Stability
Stress concentration
Surfactants
Water-in-oil emulsion
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Summary:•Synergic stabilization of W/O emulsion was allowed using particles/surfactant system.•Emulsion stability was reduced with the increase of surfactant concentration.•Maximal emulsion stability was obtained with a small amount of surfactant.•Emulsion was stabilized by particular 3D network with fine drops and particles. Water-in-oil (W/O) emulsions consisting of water and paraffin oil were prepared and stabilized by using a dual emulsifier system including hydrophobic silica particles and non-ionic surfactant. The surfactant/particles synergistic interaction and more specifically the effect of surfactant concentration (from 0 to 1.8%, w/w) at fixed amount of particles (1.8%, w/w) on the emulsions properties were investigated. Interfacial tension, emulsion morphology, water droplet size distribution, stability with time, rheological stress–strain and oscillatory properties were determined to better understand the interaction and mechanism of emulsion stabilization by solid particles in presence of surfactant. The results showed the existence of strong interaction between surfactant molecules and silica particles. The critical micellar concentration for the mixed-emulsifier system was significantly higher than that of surfactant alone. In presence of a low amount of surfactant (0.1%, w/w), the emulsion was characterized by maximal stability (up to 21 days without any phase separation). This dependence was confirmed by rheological measurements which revealed a highest storage modulus (G′) value for this emulsion. Optical microscopy revealed the formation of closely packed aggregates of small droplets forming bridges between neighboring large drops, at low surfactant concentration. The possible explanation for this phenomenon could be the flocculation of small emulsion droplets in the presence of low amount of surfactant. The formation of flocs caused the thickening of the continuous oil phase, the increase in emulsion rigidity and consequently enhanced emulsion stability.
ISSN:0927-7757
1873-4359
DOI:10.1016/j.colsurfa.2014.05.044