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Characterization of Astaxanthin Nanoemulsions Produced by Intense Fluid Shear through a Self-Throttling Nanometer Range Annular Orifice Valve-Based High-Pressure Homogenizer

Gary B. Smejkal, Edmund Ting, Karthik Nambi Arul Nambi, Richard Schumacher, Alexander Lazarev

2021Molecules20 citationsDOIOpen Access PDF

Abstract

Stable, oil-in-water nanoemulsions containing astaxanthin (AsX) were produced by intense fluid shear forces resulting from pumping a coarse reagent emulsion through a self-throttling annular gap valve at 300 MPa. Compared to crude emulsions prepared by conventional homogenization, a size reduction of over two orders of magnitude was observed for AsX-encapsulated oil droplets following just one pass through the annular valve. In krill oil formulations, the mean hydrodynamic diameter of lipid particles was reduced to 60 nm after only two passes through the valve and reached a minimal size of 24 nm after eight passes. Repeated processing of samples through the valve progressively decreased lipid particle size, with an inflection in the rate of particle size reduction generally observed after 2-4 passes. Krill- and argan oil-based nanoemulsions were produced using an Ultra Shear Technology™ (UST™) approach and characterized in terms of their small particle size, low polydispersity, and stability.

Topics & Concepts

HomogenizerBody orificeDispersityParticle sizeEmulsionMaterials scienceShear rateMicroscale chemistryChromatographyChemistryComposite materialRheologyBiochemistryMathematics educationEcologyBiologyPolymer chemistryMathematicsPhysical chemistryAntioxidant Activity and Oxidative StressAlgal biology and biofuel production
Characterization of Astaxanthin Nanoemulsions Produced by Intense Fluid Shear through a Self-Throttling Nanometer Range Annular Orifice Valve-Based High-Pressure Homogenizer | Litcius