The stabilization of foam by proteins has been mostly studied in relation to the food industry. The main aim of the research is to understand the relation between proteins used and the product properties. The molecular properties of proteins and their foam forming and stabilizing properties are typically linked to the adsorption kinetics and the interfacial properties. Additionally, the properties of thin liquid films formed between neighboring air bubbles are considered. While there are several rules of thumb describing the relations between the different parameters and processes it seems that there is not yet a ‘unifying’ theory on protein stabilized foams. If the different processes could be described by quantitative parameters the appli...
This thesis aims to advance the knowledge on the effect that particulates of dairy (whey protein) an...
International audienceThe stability and flow properties of surfactant-stabilised aqueous foams are k...
This thesis shows the effects that the addition of low molecular weight surfactants (LWMS) to protei...
The stabilization of foam by proteins has been mostly studied in relation to the food industry. The ...
Screening proteins for their potential use in foam applications is very laborious and time consuming...
In food industry, protein isolates are often used to help in the formation and stabilisation of food...
We have been studying the behavior of several globular food proteins at the air-solution interface a...
Many food proteins as egg white or milk protein show tensioactive properties. This means that one re...
The main destabilisation processes in aqueous foams are liquid drainage, coalescence and disproporti...
The relationship between the foaming characteristics of proteins and some of their physicochemical ...
The scientific literature from 2015 onwards with respect to foams and thin films in the context of f...
International audienceFrom their amphiphilic nature, proteins in solution adsorb spontaneously at hy...
It is widely accepted that protein-based particles can efficiently stabilize foams and emulsions. Ho...
To understand the properties of protein stabilized foam, quantitative parameters, such as the concen...
Foams and emulsions which are stabilised by proteins e.g. beer foams and meringues remain stable in ...
This thesis aims to advance the knowledge on the effect that particulates of dairy (whey protein) an...
International audienceThe stability and flow properties of surfactant-stabilised aqueous foams are k...
This thesis shows the effects that the addition of low molecular weight surfactants (LWMS) to protei...
The stabilization of foam by proteins has been mostly studied in relation to the food industry. The ...
Screening proteins for their potential use in foam applications is very laborious and time consuming...
In food industry, protein isolates are often used to help in the formation and stabilisation of food...
We have been studying the behavior of several globular food proteins at the air-solution interface a...
Many food proteins as egg white or milk protein show tensioactive properties. This means that one re...
The main destabilisation processes in aqueous foams are liquid drainage, coalescence and disproporti...
The relationship between the foaming characteristics of proteins and some of their physicochemical ...
The scientific literature from 2015 onwards with respect to foams and thin films in the context of f...
International audienceFrom their amphiphilic nature, proteins in solution adsorb spontaneously at hy...
It is widely accepted that protein-based particles can efficiently stabilize foams and emulsions. Ho...
To understand the properties of protein stabilized foam, quantitative parameters, such as the concen...
Foams and emulsions which are stabilised by proteins e.g. beer foams and meringues remain stable in ...
This thesis aims to advance the knowledge on the effect that particulates of dairy (whey protein) an...
International audienceThe stability and flow properties of surfactant-stabilised aqueous foams are k...
This thesis shows the effects that the addition of low molecular weight surfactants (LWMS) to protei...