A Simple Vortex-Based Method for the Generation of High-Throughput Spherical Micro- and Nanohydrogels
Moussa Boujemaa, Remi Peters, Jiabin Luan, Yieuw Hin Mok, Shauni Keller, Daniela A. Wilson

TL;DR
This paper introduces a simple and cost-effective method to create spherical hydrogels at micro and nanoscale using vortex-based polymerization.
Contribution
The novel vortex-based inverse-emulsion polymerization strategy enables scalable and precise hydrogel production without complex equipment.
Findings
Surfactant concentration, vortex intensity, and oil-to-polymer ratio significantly reduce hydrogel particle size and polydispersity.
Optimized conditions produced microhydrogels with a coefficient of variation of 0.26 and nanogels of 161 nm with PDI = 0.05.
The method allows tunable control over particle size distribution by adjusting parameters like polymer molecular weight and continuous phase viscosity.
Abstract
Hydrogel particles, renowned for their high water content and biocompatibility in drug delivery and tissue engineering, typically rely on complex, costly microfluidic systems to reach sub 5 µm dimensions. We present a vortex-based inverse-emulsion polymerization strategy in which UV crosslinking of polyethylene glycol diacrylate (PEGDA) dispersed in n-hexadecane and squalene yields tunable micro- and nanogels while delineating the parameters that govern particle size and uniformity. Systematic variation in surfactant concentration, vessel volume, continuous phase viscosity, vortex speed and duration, oil-to-polymer ratio, polymer molecular weight, and pulsed vortexing revealed that increases in surfactant level, vortex intensity/duration, vessel volume, and oil-to-polymer ratio each reduced mean diameter and PDI, whereas higher polymer molecular weight and continuous phase viscosity…
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Taxonomy
TopicsPickering emulsions and particle stabilization · Surfactants and Colloidal Systems · Proteins in Food Systems
