Synthesis of colloidal microgels using oxygen-controlled flow lithography

Abstract

We report a synthesis approach based on stop-flow lithography (SFL) for fabricating colloidal microparticles with any arbitrary 2D-extruded shape. By modulating the degree of oxygen inhibition during synthesis, we achieved previously unattainable particle sizes. Brownian diffusion of colloidal discs in bulk suggests the out-of-plane dimension can be as small as 0.8 μm, which agrees with confocal microscopy measurements. We measured the hindered diffusion of microdiscs near a solid surface and compared our results to theoretical predictions. These colloidal particles can also flow through physiological microvascular networks formed by endothelial cells undergoing vasculogensis under minimal hydrostatic pressure (∼5 mm H2O). This versatile platform creates future opportunities for on-chip parametric studies of particle geometry effects on particle passage properties, distribution and cellular interactions.

ICB Affiliated Authors

Authors
H. Z. An, H. B. Eral, L. Chen, M. B. Chen, and P. S. Doyle
Date
Type
Peer-Reviewed Article
Journal
Soft Matter
Volume
10
Pages
7595-7605
Emblems