Factors Affecting the Production and Stability of Optimal Formulation of Nanoemulsion Containing Vitamin A and D by Spontaneous Production

Due to their unique functional properties, using nanoemulsions for the enrichment of many hydrophobic compounds in beverages is beneficial. In this study, vitamins A and D nano emulsions produced by spontaneous formation using various surfactants (tween 60, 80 and 85) and corn oil and miglyol 812 as...

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Bibliographic Details
Main Authors: Akram Pezeshky Najafabadi, Fattemeh sadat Hashemi, Afra Marandi, Khadije Gharedaghi, Seyed Hosein Jalali
Format: Article
Language:fas
Published: Research Institute of Food Science and Technology 2018-10-01
Series:Pizhūhish va Nuāvarī dar ̒Ulūm va Sanāyi̒-i Ghaz̠āyī
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Online Access:http://journals.rifst.ac.ir/article_74192_818f2752418913027f9a744ed7205d9a.pdf
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Summary:Due to their unique functional properties, using nanoemulsions for the enrichment of many hydrophobic compounds in beverages is beneficial. In this study, vitamins A and D nano emulsions produced by spontaneous formation using various surfactants (tween 60, 80 and 85) and corn oil and miglyol 812 as carrier oils; various types of vitamins A and D (2:1, 1:1 and 1:2) and various surfactant emulsion ratios (SER). Measurement of the average diameter of the droplets, zeta potential, rheology, turbidity and stability of system during storage time were done. Analysis of the results by laser light dispersion in completely randomized design showed the particle size in formulation with SER=17.5%, using tween 80 and miglyol 812 including 5% vitamin A and D, was equal to 81 nm with -27.9 mv zeta potential was gained. The optimum sample was stable at a temperature of 23 °C during storage time (3 months). The images of the electron microscopy also confirmed the results of measuring the size of droplets by particle size analyzer. The study of the rheological behavior of optimum nano emulsion also indicated the Newtonian behavior and the non-dependence viscosity by shear-shear rates.
ISSN:2252-0937
2538-2357