Molecular assembly, interfacial rheology and foaming properties of oligofructose fatty acid esters

Two major types of food-grade surfactants used to stabilize foams are proteins and low molecular weight (LMW) surfactants. Proteins lower the surface tension of interfaces and tend to unfold and stabilize the interface by the formation of a visco-elastic network, which leads to high surface moduli....

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Bibliographic Details
Published in:Food Funct.
Main Authors: van Kempen, S.E.H.J., Schols, H.A., van der Linden, E., Sagis, L.M.C.
Format: Article in Journal/Newspaper
Language:English
Published: 2014
Subjects:
air-water-interface
beta-lactoglobulin
candida-antarctica
chain-length
dilatational rheology
enzymatic-synthesis
lipase-catalyzed synthesis
solid-phase synthesis
sugar esters
surface-active properties
Antarc*
Antarctica
Online Access:https://research.wur.nl/en/publications/molecular-assembly-interfacial-rheology-and-foaming-properties-of-2
https://doi.org/10.1039/c3fo60324e
Description
Summary:Two major types of food-grade surfactants used to stabilize foams are proteins and low molecular weight (LMW) surfactants. Proteins lower the surface tension of interfaces and tend to unfold and stabilize the interface by the formation of a visco-elastic network, which leads to high surface moduli. In contrast, LMW surfactants lower the surface tension more than proteins, but do not form interfaces with a high modulus. Instead, they stabilize the interface through the Gibbs-Marangoni mechanism that relies on rapid diffusion of surfactants, when surface tension gradients develop as a result of deformations of the interface. A molecule than can lower the surface tension considerably, like a LMW surfactant, but also provide the interface with a high modulus, like a protein, would be an excellent foam stabilizer. In this article we will discuss molecules with those properties: oligofructose fatty acid esters, both in pure and mixed systems. First, we will address the synthesis and structural characterization of the esters. Next, we will address self-assembly and rheological properties of air/water interfaces stabilized by the esters. Subsequently, this paper will deal with mixed systems of mono-esters with either di-esters and lauric acid, or proteins. Then, the foaming functionality of the esters is discussed.

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