Dripping, Jetting, Drops, and Wetting: The Magic of Microfluidics

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Zach Wissner-Gross (March 30, 2009)


Dripping, Jetting, Drops, and Wetting: The Magic of Microfluidics

A. S. Utada, L.-Y. Chu, A. Fernandez-Nieves, D. R. Link, C. Holtze, and D. A. Weitz

MRS Bulletin, 2007, 32, 702-708

Soft matter keywords

Surface tension, Rayleigh-Plateau instability, hydrodynamic focusing, emulsion, capillary number, Weber number


David Weitz and coworkers describe their work creating emulsions using concentric capillary tubes. They introduce two geometries for making these controlled emulsions: with coaxial flow, an outer fluid flow provides a shear force that pulls droplets out from an inner capillary (Figure 1), whereas with flow-focusing, the flow of the outer fluid (rather than the tube itself) focuses the inner fluid before shearing, producing noticeably smaller droplets (Figure 2).

The authors go on to realize that with coaxial flow, or co-flow as they call it for short, they can create cascading emulsion events with relative ease and control (Figure 3). Most impressive is the authors' "monodisperse triple emulsions," that make use of such recursion (Figure 4). By changing relative flow rates, they can alter the number of drops at each level in the hierarchy.

Finally, the authors run through an impressive list of applications for their technology. Using diblock copolymers as a surfactant and by evaporating intermediate droplets among a series of concentric droplets, they can create "polymerosome structures," such as lipid bilayers, or even bilayers with different polymers inside and outside (so-called "asymmetric polymerosomes"), which resemble the intra- and extracellular surfaces of cell membranes. Weitz and coworkers have created shells of liquid crystals and polymerizable hydrogels, and have even seeded triple emulsion droplets in thermosensitive gels, which shrink at higher temperatures, thereby tearing intermediate layers of the droplets for controlled release of the inner layers (think drug delivery!).

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