2010
DOI: 10.1016/j.colsurfb.2010.06.033
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Flocculation of protein-stabilized oil-in-water emulsions

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Cited by 384 publications
(223 citation statements)
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“…14,24 The underlying principles of the steric and electrostatic stabilization of double emulsion droplets by protein are essentially the same as those relating to a simple protein-stabilized emulsion. [79][80][81][82] A further advantage of protein as emulsifying agent is that it is insoluble in the oil phase, and so it has no tendency (unlike small-molecule emulsifiers) to migrate to the internal oil-water interface or to interfere with the stabilization of the inner droplets. In the case of O/W emulsions, it is common practice to add polysaccharides at low concentrations as thickening and gelling agents in order to achieve rheological control of the aqueous continuous phase 83 ; the same approach is applicable to double emulsions.…”
Section: Stabilization Of Outer Droplets Of W/o/w Emulsions By Biopolmentioning
confidence: 99%
“…14,24 The underlying principles of the steric and electrostatic stabilization of double emulsion droplets by protein are essentially the same as those relating to a simple protein-stabilized emulsion. [79][80][81][82] A further advantage of protein as emulsifying agent is that it is insoluble in the oil phase, and so it has no tendency (unlike small-molecule emulsifiers) to migrate to the internal oil-water interface or to interfere with the stabilization of the inner droplets. In the case of O/W emulsions, it is common practice to add polysaccharides at low concentrations as thickening and gelling agents in order to achieve rheological control of the aqueous continuous phase 83 ; the same approach is applicable to double emulsions.…”
Section: Stabilization Of Outer Droplets Of W/o/w Emulsions By Biopolmentioning
confidence: 99%
“…For example, emulsions containing flocculated droplets typically have much higher viscosities than non-flocculated ones, which may be useful for creating products with viscous, paste-like, or solid-like properties. The droplets can be made to aggregate with each other by adjusting system conditions so that the attractive interactions acting between the droplets overcome the repulsive interactions [6,85]. The method used to induce flocculation is highly system dependent, and in particular on the nature of the droplet interface.…”
Section: Droplet Spatial Distribution: Controlled Droplet Aggregationmentioning
confidence: 99%
“…For protein stabilised emulsions part of this repulsion is provided by electrostatic interactions between positively charged protein layers. 32 Adsorption of negatively charged polysaccharide, at the early stages of the formation of the secondary layer, can reduce the overall surface charge. This diminishes the electrostatic repulsion between the droplets.…”
Section: Introductionmentioning
confidence: 99%