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Development of eco-friendly submicron emulsions stabilized by a bio-derived gum

Author:
Perez-Mosqueda, Luis María; Ramírez, Pablo; Trujillo-Cayado, Luis Alfonso; Santos, Jenifer; Muñoz, José
URI:
https://hdl.handle.net/20.500.12412/7151
ISSN:
0927-7765
DOI:
10.1016/j.colsurfb.2014.10.022
Date:
2014
Keyword(s):

Rosin gum

Limonene

Eco-friendly emulsions

Pluronic

Ostwald ripening

Abstract:

Many traditional organic solvents are being gradually replaced by ecofriendly alternatives. d-Limonene is a terpenic (bio)-solvent that fulfil the requirements to be considered a green solvent. d-Limonene sub-micron emulsions suffer from Ostwald ripening destabilization. In this study, we examined the influence of the addition of a natural gum (rosin gum) to d-limonene in order to prevent Ostwald ripening. This contribution deals with the study of emulsions formulated with a mixture of d-limonene and rosin gum as dispersed phase and Pluronic PE9400 as emulsifier. The procedure followed for the development of these formulations was based on the application of product design principles. This led to the optimum ratio rosin gum/d-limonene and subsequently to the optimum surfactant concentration. The combination of different techniques (Rheology, Laser Diffraction and Multiple Light Scattering) was demonstrated to be a powerful tool to assist in the prediction of the emulsions destabilisation process. Not only did the addition of rosin gum highly increase the stability of these emulsions by inhibiting the Ostwald ripening, but it also reduced the emulsions droplet size. Thus, we found that stable sub-micron d-limonene-in-water emulsions have been obtained in the range 3-6 wt% Pluronic PE-9400 by means of a single-step rotor/stator homogenising process.

Many traditional organic solvents are being gradually replaced by ecofriendly alternatives. d-Limonene is a terpenic (bio)-solvent that fulfil the requirements to be considered a green solvent. d-Limonene sub-micron emulsions suffer from Ostwald ripening destabilization. In this study, we examined the influence of the addition of a natural gum (rosin gum) to d-limonene in order to prevent Ostwald ripening. This contribution deals with the study of emulsions formulated with a mixture of d-limonene and rosin gum as dispersed phase and Pluronic PE9400 as emulsifier. The procedure followed for the development of these formulations was based on the application of product design principles. This led to the optimum ratio rosin gum/d-limonene and subsequently to the optimum surfactant concentration. The combination of different techniques (Rheology, Laser Diffraction and Multiple Light Scattering) was demonstrated to be a powerful tool to assist in the prediction of the emulsions destabilisation process. Not only did the addition of rosin gum highly increase the stability of these emulsions by inhibiting the Ostwald ripening, but it also reduced the emulsions droplet size. Thus, we found that stable sub-micron d-limonene-in-water emulsions have been obtained in the range 3-6 wt% Pluronic PE-9400 by means of a single-step rotor/stator homogenising process.

 

Es la versión aceptada del artículo. Se puede consultar la versión final en https://doi.org/10.1016/j.colsurfb.2014.10.022

Es la versión aceptada del artículo. Se puede consultar la versión final en https://doi.org/10.1016/j.colsurfb.2014.10.022

 
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