Add to ORKGThe structural properties and morphology of mixed gels made of aqueous preparations of agarose and whey protein were modified by changing thermal treatment and pH. The conformationally dissimilar polymers phase separated and this process was followed by small-deformation dynamic oscillation in shear, differential scanning calorimetry and environmental scanning electron microscopy. Experimental protocol encourages formation of a range of two-phase systems from continuous agarose matrices perforated by liquid-like whey protein inclusions to phase inverted preparations where a soft protein matrix suspends hard agarose-filler particle
Phase separation is a common phenomenon in biopolymer mixtures. In food systems, the biopolymers are...
Many biopolymer mixtures exhibit segregative phase separation that generates regions enriched in one...
High pressure processing (HPP) can induce structure development in macromolecules which are distinct...
This work constitutes a study of the impact of phase separation behaviour on the gels properties of ...
Despite the increasing appreciation that whey is a valuable resource of dairy industry, as opposed t...
The influence of various process parameters on the microstructure and rheological properties of pure...
Investigation on the phase behaviour of a biopolymer mixture has been performed using 7.5% (w/w) gel...
We present evidence for the existence of phase separation in the gel state of agarose having the mix...
The gelation of gelatine in mixtures of gelatine (type A or type B) and globular proteins (Whey Prot...
This study examines the structural properties of binary and tertiary mixtures made of the cold-setti...
Gels of whey protein concentrate (WPC)-gluten were prepared by heating WPC-gluten dispersions (10% w...
The present work deals with the changing network morphology of whey protein isolate (15%, w/w) in th...
Network formation of whey protein isolate (WPI) with increasing concentrations of native wheat starc...
Phase separation in protein and polysaccharide gels remains one of the basic tools of achieving the ...
Avian egg albumen and whey protein concentrates from milk are widely used in the food industry as bi...
Phase separation is a common phenomenon in biopolymer mixtures. In food systems, the biopolymers are...
Many biopolymer mixtures exhibit segregative phase separation that generates regions enriched in one...
High pressure processing (HPP) can induce structure development in macromolecules which are distinct...
This work constitutes a study of the impact of phase separation behaviour on the gels properties of ...
Despite the increasing appreciation that whey is a valuable resource of dairy industry, as opposed t...
The influence of various process parameters on the microstructure and rheological properties of pure...
Investigation on the phase behaviour of a biopolymer mixture has been performed using 7.5% (w/w) gel...
We present evidence for the existence of phase separation in the gel state of agarose having the mix...
The gelation of gelatine in mixtures of gelatine (type A or type B) and globular proteins (Whey Prot...
This study examines the structural properties of binary and tertiary mixtures made of the cold-setti...
Gels of whey protein concentrate (WPC)-gluten were prepared by heating WPC-gluten dispersions (10% w...
The present work deals with the changing network morphology of whey protein isolate (15%, w/w) in th...
Network formation of whey protein isolate (WPI) with increasing concentrations of native wheat starc...
Phase separation in protein and polysaccharide gels remains one of the basic tools of achieving the ...
Avian egg albumen and whey protein concentrates from milk are widely used in the food industry as bi...
Phase separation is a common phenomenon in biopolymer mixtures. In food systems, the biopolymers are...
Many biopolymer mixtures exhibit segregative phase separation that generates regions enriched in one...
High pressure processing (HPP) can induce structure development in macromolecules which are distinct...