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Kinetics of surfactant multilayer formation / dissolution at interfaces
The formation of multilayer structures at surfaces and interfaces from self-assembly in mixed surfactant and in polymer / surfactant mixtures has been recently reported, and... -
Competetive adsorption in hydrophobin / protein mixtures at the air-solution ...
Hydrophobins are secreted fungal proteins in the form of small lipopetide biosurfactants. They are strongly surface active and self assemble at interfaces and in solution. This... -
Competitive adsorption in hydrophobin / protein mixtures at the solid-solutio...
Hydrophobins are secreted fungal proteins in the form of small lipopetide biosurfactants. They are strongly surface active and self-assemble at interfaces and in solution. This... -
Stabilising emulsions with protein-surfactant mixtures.
Hydrophobins, hfb2, are secreted fungal proteins, which are strongly surface active and possess powerful emulsion and foam stabilising properties. Understanding their... -
Self-assembly of proteins and bio-compatible surfactants
Increased environmental pressures and awareness is promoting a major drive towards an increased use of biosurfactants to produce more biosustainable and biodegradable consumer... -
Competetive adsorption in hydrophobin / protein mixtures at the air-solution ...
Hydrophobins are secreted fungal proteins in the form of small lipopetide biosurfactants. They are strongly surface active and self assemble at interfaces and in solution. This... -
Surface adsorption in hydrophobin, Tween and β-Casein mixtures
Increased environmental pressures and awareness is promoting a major drive towards an increased use of biosurfactants to produce more biosustainable and biodegradable consumer... -
Self-assembly of beta-casein and beta-casein / hydrophobin mixtures
Hydrophobins, hfb2, are secreted fungal proteins in the form of a small lipopeptide. They are strongly surface active and self-assemble in solution and at interfaces. They have...