Jin Woong Kim

TL;DR: The structure of multiple emulsion systems is in this case defined as the number of bubbles contained in each size "level" of larger bubbles.

TL;DR: In this paper, the authors describe new developments for the controlled fabrication of monodisperse emulsions using microfluidics and use glass capillary devices to generate single, double, and higher order emulsion with exceptional precision.

TL;DR: It is shown that the elastic contraction of the swollen polymer particles induced by elevated polymerization temperatures plays an important role in the phase separation of two-phase nonspherical particles.

TL;DR: A versatile technique for fabricating monodisperse polymersomes with biocompatible and biodegradable diblockCopolymers for efficient encapsulation of actives and the ability to make polymer vesicles with copolymers of different block ratios and to incorporate different homopolymers into thepolymersomes will allow the tuning of polymersome properties for specific technological applications.

TL;DR: A flexible and straightforward method for generating monodisperse suspensions of new microgelbased materials using a capillary microfluidic technique, which enabled us to generate and precisely control the size of the microgel-based particles without sacrificing the physical response of the resulting microgels.