Issue 36, 2022

Producing shape-engineered alginate particles using viscoplastic fluids

Abstract

Non-spherical hydrogel particles are of fundamental interest and can find use in a variety of applications ranging from pharmaceuticals to biomedical to food. Here, we report a new method that leverages the yield stress property of viscoplastic fluids to synthesize shape-engineered alginate particles. By dripping an aqueous viscoplastic solution composed of sodium alginate and a yield-stress material into an ionic gelation bath, droplets are controllably deformed and crosslinked, producing a wide assortment of shapes. We find that by tuning the yield stress of the solution and the nozzle tip orientation, a range of shapes from symmetric and near-spherical, to asymmetric and anisotropic (e.g., egg-, rice grain-, arc-, ring-, snail shell-, tear-, and tadpole-like) can be produced. We explain our observations using scaling analysis of the forces exerted on the droplet at different stages of particle production. We show that the main factors that determine the degree of droplet deformation during bath entry and the final appearance of the alginate particles are the initial shape of the droplets, the timescales of the viscoplastic fluid relaxation versus the crosslinking reaction, and the physico-chemical properties of the yield-stress material.

Graphical abstract: Producing shape-engineered alginate particles using viscoplastic fluids

Supplementary files

Article information

Article type
Paper
Submitted
12 May 2022
Accepted
09 Aug 2022
First published
31 Aug 2022
This article is Open Access
Creative Commons BY-NC license

Soft Matter, 2022,18, 6848-6856

Producing shape-engineered alginate particles using viscoplastic fluids

S. Asadi, A. Z. Nelson and P. S. Doyle, Soft Matter, 2022, 18, 6848 DOI: 10.1039/D2SM00621A

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