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Parallelization of Microfluidic Droplet Junctions for Ultraviscous Fluids

Authors
Kim, Hyeon HoCho, YongDeokBaek, DongjaeRho, Kyung HunPark, Sung HunLee, Seungwoo
Issue Date
2022
Publisher
WILEY-V C H VERLAG GMBH
Keywords
droplet microfluidics; microlens arrays; Polydimethylsiloxane (PDMS); pressure drop; T-junction
Citation
SMALL
Indexed
SCIE
SCOPUS
Journal Title
SMALL
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/145565
DOI
10.1002/smll.202205001
ISSN
1613-6810
Abstract
The parallelization of multiple microfluidic droplet junctions has been successfully achieved so that the production throughput of the uniform microemulsions/particles has witnessed considerable progress. However, these advancements have been observed only in the case of a low viscous fluid (viscosity of 10(-2)-10(-3) Pa s). This study designs and fabricates a microfluidic device, enabling a uniform micro-emulsification of an ultraviscous fluid (viscosity of 3.5 Pa s) with a throughput of approximate to 330 000 droplets per hour. Multiple T-junctions of a dispersed oil phase, split from a single inlet, are connected into the single post-crossflow channel of a continuous water phase. In the proposed device, the continuous water phase undergoes a series circuit, wherein the resistances are continuously accumulated. The independent corrugations of the dispersed oil phase channel, under the theoretical guidance, compromise such increased resistances; the ratio of water to oil flow rates at each junction becomes consistent across T-junctions. Owing to the design being based on a fully 2D interconnection, single-step soft lithography is sufficient for developing the full device. This easy-to-craft architecture contrasts with the previous approach, wherein complicated 3D interconnections of the multiple junctions are involved, thereby facilitating the rapid uptake of high throughput droplet microfluidics for experts and newcomers alike.
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