Influence of a Non-Ionic Surfactant in the Microstructure and Rheology of a Pickering Emulsion Stabilized by Cellulose Nanofibrils.

Jorge Velásquez-Cock,Lina María Vélez,Manuel Romero-Sáez,Natalia Correa-Hincapié,Robin Zuluaga,Angélica María Serpa,Piedad Gañán,Catalina Gómez-Hoyos

doi:10.3390/polym13213625

Jorge Velásquez-Cock, Lina María Vélez + Show 6 more

Open Access

https://doi.org/10.3390/polym13213625

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Abstract

Emulsion stabilization is a broad and relevant field with applications in oil, polymer and food industries. In recent years, the use of solid particles to stabilize emulsions or Pickering emulsions have been studied for their kinetic and physical properties. Nanomaterials derived from natural sources are an interesting alternative for this application. Cellulose nanofibrils (CNFs) have been widely explored as a Pickering emulsifier with potential food applications, however, in some cases the presence of surfactants is unavoidable, and the literature is devoid of an evaluation of the effect of a non-ionic food-grade surfactant, such as polysorbate 80, in the stabilization of a vegetable oil by CNFs. To better assess the possible interactions between CNFs and this surfactant emulsions containing coconut oil, an emerging and broadly used oil, were processed with and without polysorbate 80 and evaluated in their qualitative stability, morphological and physical properties. Fluorescence microscopy, dynamic light scattering and rheology were used for this assessment. Results indicate in absence of the surfactant, emulsion stability increased at higher CNFs content, creaming was observed at 0.15 and 0.3 wt.% of CNFs, while it was not evidenced when 0.7 wt.% was used. After the addition of surfactant, the droplets are covered by the surfactant, resulting in particles with a smaller diameter, entrapped in the cellulosic structure. Rheology indicates a lower network stiffness after adding polysorbate 80.

Highlights

The mixture of two immiscible liquids, such as oil and water in a fine dispersion of droplets surrounded by a continuous medium, form a thermodynamically unstable colloid, known as an emulsion
The obtained Cellulose nanofibrils (CNFs) consists of an entangled network of fibrils and fibril bundles, Figure S2a, where most of their diameter lies between 5 and 100 nm, with a small amount of subfibrillated material above this range, Figure S2b, which is coherent with previous reports [19]
Since the clusters have a lower density than the buffer, they float towards the top of the emulsion [16]. This behavior was evidenced in CCNFs30, while it was absent in CNFs concentrations above 0.45 wt.%

Summary

Introduction

The mixture of two immiscible liquids, such as oil and water in a fine dispersion of droplets surrounded by a continuous medium, form a thermodynamically unstable colloid, known as an emulsion. It is possible to replace them with amphiphilic solid particles, relying on the coverage of the discrete phase by the solid, forming Pickering emulsions [4,5]. The stability of this type of emulsions depends on the affinity between the particle and interphase, as well as the diameter of the solid. Smaller particles tend to have a better packaging around the droplet and higher energies of desorption [4,6]

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Results

Conclusion