Two-phase microfluidic flow modeling in an electrowetting display microwell

Yanbo Xie; Miao Sun; Mingliang Jin; Guofu Zhou; Lingling Shui

doi:10.1140/epje/i2016-16016-7

Two-phase microfluidic flow modeling in an electrowetting display microwell

Yanbo Xie, Miao Sun, Mingliang Jin, Guofu Zhou, Lingling Shui

航空学院

科研成果: 期刊稿件 › 文章 › 同行评审

10 引用（Scopus）

摘要

Abstract.: Digital microfluidics provides precise control of a single microdroplet, producing more opportunities for bio-molecule studies, chemical reaction and optofluidics applications. By manipulating the surface of droplets, light can be focused, scattered, or reflected toward different positions. We build a model of electro-responsive optical microfluidic system, operated based on the electrowetting mechanism, which can split or push droplets moving within a microwell. The initial close state and operated open state in a single microwell displays the color of a dye oil droplet and the substrate, respectively, represented as the dark and bright pixel in the display board. Our results indicate that the microdroplets interface could be successfully deformed and moved towards different directions within a short period of time.

源语言	英语
文章编号	16
页（从-至）	1-5
页数	5
期刊	European Physical Journal E
卷	39
期	2
DOI	https://doi.org/10.1140/epje/i2016-16016-7
出版状态	已出版 - 1 2月 2016

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title = "Two-phase microfluidic flow modeling in an electrowetting display microwell",

abstract = "Abstract.: Digital microfluidics provides precise control of a single microdroplet, producing more opportunities for bio-molecule studies, chemical reaction and optofluidics applications. By manipulating the surface of droplets, light can be focused, scattered, or reflected toward different positions. We build a model of electro-responsive optical microfluidic system, operated based on the electrowetting mechanism, which can split or push droplets moving within a microwell. The initial close state and operated open state in a single microwell displays the color of a dye oil droplet and the substrate, respectively, represented as the dark and bright pixel in the display board. Our results indicate that the microdroplets interface could be successfully deformed and moved towards different directions within a short period of time.",

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T1 - Two-phase microfluidic flow modeling in an electrowetting display microwell

AU - Xie, Yanbo

AU - Sun, Miao

AU - Jin, Mingliang

AU - Zhou, Guofu

AU - Shui, Lingling

PY - 2016/2/1

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N2 - Abstract.: Digital microfluidics provides precise control of a single microdroplet, producing more opportunities for bio-molecule studies, chemical reaction and optofluidics applications. By manipulating the surface of droplets, light can be focused, scattered, or reflected toward different positions. We build a model of electro-responsive optical microfluidic system, operated based on the electrowetting mechanism, which can split or push droplets moving within a microwell. The initial close state and operated open state in a single microwell displays the color of a dye oil droplet and the substrate, respectively, represented as the dark and bright pixel in the display board. Our results indicate that the microdroplets interface could be successfully deformed and moved towards different directions within a short period of time.

AB - Abstract.: Digital microfluidics provides precise control of a single microdroplet, producing more opportunities for bio-molecule studies, chemical reaction and optofluidics applications. By manipulating the surface of droplets, light can be focused, scattered, or reflected toward different positions. We build a model of electro-responsive optical microfluidic system, operated based on the electrowetting mechanism, which can split or push droplets moving within a microwell. The initial close state and operated open state in a single microwell displays the color of a dye oil droplet and the substrate, respectively, represented as the dark and bright pixel in the display board. Our results indicate that the microdroplets interface could be successfully deformed and moved towards different directions within a short period of time.

KW - Topical Issue: Wetting and Drying: Physics and Pattern Formation

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Two-phase microfluidic flow modeling in an electrowetting display microwell

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