Using capacitance measurements in EWOD devices to identify fluid composition and control droplet mixing

Using capacitance measurements in EWOD devices to identify fluid composition and control droplet mixing

The use of capacitance measurements to identify the composition of droplets and monitor mixing in electrowetting on dielectric devices is examined here. Measurements were repeatable at each addressable location, with standard deviations on the order of 0.1 pF and a two-point calibration allowed repe...

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Bibliographic Details
Published in:Sensors and actuators. B, Chemical Vol. 145; no. 1; pp. 340 - 347
Main Authors: Schertzer, M.J., Ben-Mrad, R., Sullivan, P.E.
Format: Journal Article
Language:English
Published: Elsevier B.V 04-03-2010
Subjects:
Actuation
Automation
Capacitance
Composition
Concentration (composition)
Control
Devices
Droplets
Electric potential
Electrowetting on dielectric
Microfluidics
Mixing
Monitors
Position (location)
Void fraction
Mixing
Composition
Control
Automation
Capacitance
Void fraction
Electrowetting on dielectric
Microfluidics
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Summary:The use of capacitance measurements to identify the composition of droplets and monitor mixing in electrowetting on dielectric devices is examined here. Measurements were repeatable at each addressable location, with standard deviations on the order of 0.1 pF and a two-point calibration allowed repeatable differentiation of water–methanol solutions as the capacitance was linear with concentration. Capacitance at addressable locations was monitored throughout the mixing of water–methanol solutions. It was shown analytically and experimentally that the dimensionless capacitance is approximately equal to the dimensionless dielectric constant for practical EWOD applications. The number of cycles required for complete mixing remained constant for periods of actuation between 400 and 1000 ms and applied voltages between 90 and 110 V RMS. Although minimizing actuation period and maximizing droplet velocity decreases mixing time, these parameters have little affect on the number of cycles necessary to achieve mixing in EWOD devices. This shows mixing efficiency in EWOD devices is better described by the number of cycles, not the time, required for full mixing.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2009.12.019