Exploiting oxygen inhibited photopolymerization within emulsion droplets for the fabrication of microparticles with customizable size, shape and interfacial and mechanical properties

Assignee

• UNIVERSITY OF WYOMING · US

Inventors

• John Oakey · London, GB
• Katie Dongmei Li-Oakey · Laramie, US
• Daniel Debroy · Laramie, US
• Carl Frick · Laramie, US
• Rajib K. Shaha · Laramie, US

Key dates

Classification

• Technology area (CPC B)Performing Operations; Transporting
• CPC primaryB01J13/0065
• WIPO fieldPharmaceuticals
• WIPO sectorChemistry

Abstract

Described are methods and devices for the generation of hydrogel particles with micrometer and submicrometer dimensions using oxygen-inhibited partial polymerization, and the particles generated therefrom. The described methods generate particles with dimensions independent of the starting polymerizable solution dimension, for example, a microdroplet. Further, microfluidic flow parameters (e.g. viscosity, flow rate) and photopolymerization process parameters (e.g. optical exposure intensity and duration) are controlled to generate particles with tunable crosslinking density-determined properties including elasticity, diffusivity, and biomolecular display for diverse applications such as drug delivery, tissue engineering cell scaffolds, and single- and multiple-cell therapeutics. Similarly, gradients of crosslinking density-determined properties can be created within single particles through the selection of optical exposure intensity and duration. In addition to conventional spherical shapes, a suite of non-spherical shapes may be generated by manipulating the dimensions of the microfluidic channels and other related physical and process parameters.