Control of aqueous droplets using magnetic and electrostatic forces.

Control of aqueous droplets using magnetic and electrostatic forces. Research Abstract Details 

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Control of aqueous droplets using magnetic and electrostatic forces. Abstract Text:

Tetsuo Ohashi,Hiroki Kuyama,Koichi Suzuki,Shin Nakamura,

Basic control operations were successfully performed on an aqueous droplet using both magnetic and electrostatic forces. In our droplet-based microfluidics, magnetic beads were incorporated in an aqueous droplet as a force mediator. This report describes droplet anchoring and separation of the beads from the droplet using a combination of magnetic and electrostatic forces. When an aqueous droplet is placed in an oil-filled reservoir, the droplet sinks to the bottom, under which an electrode had been placed. The droplet was adsorbed (or anchored) to the bottom surface on the electrode when a DC voltage was applied to the electrode. The magnetic beads were removed with magnetic force after the droplet had been anchored. Surfactant addition into droplet solution was very effective for the elimination of electric charge, which resulted in the stable adsorption of a droplet to hydrophobic substrate under an applied voltage of DC 0.5-3 kV. In a sequential process, small volume of aqueous liquid was successfully transferred using both magnetic and electrostatic forces.

Control of aqueous droplets using magnetic and electrostatic forces. Publishing Authors By Initials

T Ohashi,H Kuyama,K Suzuki,S Nakamura,

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Control of aqueous droplets using magnetic and electrostatic forces. Journal Published:

PUBLICATION TYPE: Journal Article

Journal: Analytica chimica acta

VOLUME: 612

Page Numbers: 218-25

Journal Abbreviation: Anal. Chim. Acta

ISSN: 1873-4324

DAY: 16

MONTH: 02

YEAR: 2008

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LANGUAGE: eng

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AFFILIATION: Life Science Laboratory, Analytical and Measuring Instruments Division, Shimadzu Corporation, Kyoto 604-8511, Japan. tetu@shimadzu.co.jp

Country: Netherlands

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MEDLINETA: Anal Chim Acta

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