Concentric Capillary Microfluidic Devices Designed for Robust Production of Multiple-Emulsion Droplets.

Multiple emulsions are used as templates for producing functional microcapsules due to their unique core-shell geometry. Employing glass capillary devices with coaxial channels has proven effective in creating uniform multiple-emulsion droplets. However, the use of partially miscible fluids, crucial for microcapsule production, often results in clogging and disrupts the stability of these devices. Here, we introduce innovative capillary microfluidic devices with concentric capillary channels, specifically designed to optimize the production of multiple-emulsion droplets while mitigating issues of precipitation and clogging. The key aspect of these devices is their configuration of two or three concentrically aligned capillaries, which form separate, coaxial microchannels for fluid injection. This unique alignment, achieved through rotational adjustments that leverage the natural off-center positioning of tapered capillaries, facilitates the simultaneous coaxial injection of various fluids into a droplet-forming junction, significantly reducing fluid contact before emulsification. The devices, featuring double and triple concentric capillary channels, consistently produce highly uniform double-, triple-, and quadruple-emulsion droplets with precisely controlled diameters and layer thicknesses. The minimal contact between fluids prior to emulsification in these devices broadens the usable range of fluid combinations, heralding new possibilities in microcapsule development for pharmaceutical and cosmetic applications.