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A micro-watt metal-insulator-solution-transport (MIST) device for scalable digital bio-microfluidic systems

Publication ,  Journal Article
Fair, RB; Pollack, MG; Woo, R; Pamula, VK; Hong, R; Zhang, T; Venkatraman, J
Published in: Technical Digest - International Electron Devices Meeting
December 1, 2001

In this work new data, models, and applications are presented of an ultra-low power, microfluidic device for use in integrated bio-microelectrofluidic systems (Bio-MEFS). The metal-insulator-solution transport (MIST) device is based on the high-speed manipulation of discrete droplets of analytes and reagents under voltage control, and is the MOSFET equivalent for MEFS.

Duke Scholars

Richard B. Fair
Author Richard B. Fair Electrical and Computer Engineering

Published In

Technical Digest - International Electron Devices Meeting

ISSN

0163-1918

Publication Date

December 1, 2001

Start / End Page

367 / 370
 

Citation

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Fair, R. B., Pollack, M. G., Woo, R., Pamula, V. K., Hong, R., Zhang, T., & Venkatraman, J. (2001). A micro-watt metal-insulator-solution-transport (MIST) device for scalable digital bio-microfluidic systems. Technical Digest - International Electron Devices Meeting, 367–370.
Fair, R. B., M. G. Pollack, R. Woo, V. K. Pamula, R. Hong, T. Zhang, and J. Venkatraman. “A micro-watt metal-insulator-solution-transport (MIST) device for scalable digital bio-microfluidic systems.” Technical Digest - International Electron Devices Meeting, December 1, 2001, 367–70.
Fair RB, Pollack MG, Woo R, Pamula VK, Hong R, Zhang T, et al. A micro-watt metal-insulator-solution-transport (MIST) device for scalable digital bio-microfluidic systems. Technical Digest - International Electron Devices Meeting. 2001 Dec 1;367–70.
Fair, R. B., et al. “A micro-watt metal-insulator-solution-transport (MIST) device for scalable digital bio-microfluidic systems.” Technical Digest - International Electron Devices Meeting, Dec. 2001, pp. 367–70.
Fair RB, Pollack MG, Woo R, Pamula VK, Hong R, Zhang T, Venkatraman J. A micro-watt metal-insulator-solution-transport (MIST) device for scalable digital bio-microfluidic systems. Technical Digest - International Electron Devices Meeting. 2001 Dec 1;367–370.

Published In

Technical Digest - International Electron Devices Meeting

ISSN

0163-1918

Publication Date

December 1, 2001

Start / End Page

367 / 370