Issue 22, 2024

A hybrid approach to oil structuring – combining wax oleogels and capillary suspensions

Abstract

There is continuing interest in finding new approaches to gel liquid oil for processed food applications. Here, we combined oleogels and capillary suspensions to generate model oil-continuous networks consisting of a wax oleogel and a water-bridged, glass particle network. The composition map tested comprised 30 vol% polar or non-polar glass beads dispersed in a 70 vol% non-particle phase consisting of water (≤9 vol%) as well as 2 wt% hexatriacontane as oleogelator in canola oil. While the hexatriacontane wax alone gelled the oil, presence of the glass beads (but no water) prevented oleogelation. Self-supporting capillary networks formed with polar particles and 1 vol% water or non-polar glass beads and 3 vol% water in canola oil. The capillary suspensions demonstrated significant differences in rheological behaviour as the polar particles yielded much higher elastic moduli than their non-polar particle counterparts. Polar hybrids were weakened by inclusion of the wax whereas the non-polar particle hybrid network displayed elastic moduli greater than the respective contributions of both capillary and wax gel networks. This hybrid method of oleogelation can be applied to virtually any food particles and uses minimal water and wax.

Graphical abstract: A hybrid approach to oil structuring – combining wax oleogels and capillary suspensions

Supplementary files

Article information

Article type
Paper
Submitted
30 Nov 2023
Accepted
06 Feb 2024
First published
14 May 2024

Soft Matter, 2024,20, 4329-4336

A hybrid approach to oil structuring – combining wax oleogels and capillary suspensions

S. Simoes and D. Rousseau, Soft Matter, 2024, 20, 4329 DOI: 10.1039/D3SM01619F

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