Broadcast electrode-addressing for pin-constrained multi-functional digital microfluidic biochips

Recent advances in digital microfluidics have enabled lab-on-a-chip devices for DNA sequencing, immunoassays, clinical chemistry, and protein crystallization. Basic operations such as droplet dispensing, mixing, dilution, localized heating, and incubation can be carried out using a two-dimensional a...

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Published in	2008 45th ACM/IEEE Design Automation Conference pp. 173 - 178
Main Authors	Xu, Tao, Chakrabarty, Krishnendu
Format	Conference Proceeding
Language	English
Published	New York, NY, USA ACM 08.06.2008 IEEE
Series	ACM Conferences
Subjects	Chemistry Crystallization DNA Droplet-based microfluidics Electrodes electrowetting-on-dielectric Hardware > Hardware validation Hardware > Integrated circuits > Logic circuits Hardware > Integrated circuits > Logic circuits > Arithmetic and datapath circuits Heating Immune system Lab-on-a-chip lab-on-chip Microfluidics Pins Proteins electrowetting-on-dielectric lab-on-chip droplet-based microfluidics
Online Access	Get full text
ISBN	1605581151 9781605581156
ISSN	0738-100X
DOI	10.1145/1391469.1391514

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Abstract	Recent advances in digital microfluidics have enabled lab-on-a-chip devices for DNA sequencing, immunoassays, clinical chemistry, and protein crystallization. Basic operations such as droplet dispensing, mixing, dilution, localized heating, and incubation can be carried out using a two-dimensional array of electrodes and nanoliter volumes of liquid. The number of independent input pins used to control the electrodes in such microfluidic "biochips" is an important cost-driver, especially for disposable PCB devices that are being developed for clinical and point-of-care diagnostics. However, most prior work on biochip design-automation has assumed independent control of the electrodes using a large number of input pins. Another limitation of prior work is that the mapping of control pins to electrodes is only applicable for a specific bioassay. We present a broadcast-addressing-based design technique for pin-constrained multi-functional biochips. The proposed method provides high throughput for bioassays and it reduces the number of control pins by identifying and connecting control pins with "compatible" actuation sequences. The proposed method is evaluated using a multifunctional chip designed to execute a set of multiplexed bioassays, the polymerase chain reaction, and a protein dilution assay.
AbstractList	Recent advances in digital microfluidics have enabled lab-on-a-chip devices for DNA sequencing, immunoassays, clinical chemistry, and protein crystallization. Basic operations such as droplet dispensing, mixing, dilution, localized heating, and incubation can be carried out using a two-dimensional array of electrodes and nanoliter volumes of liquid. The number of independent input pins used to control the electrodes in such microfluidic "biochips" is an important cost-driver, especially for disposable PCB devices that are being developed for clinical and point-of-care diagnostics. However, most prior work on biochip design-automation has assumed independent control of the electrodes using a large number of input pins. Another limitation of prior work is that the mapping of control pins to electrodes is only applicable for a specific bioassay. We present a broadcast-addressing-based design technique for pin-constrained multi-functional biochips. The proposed method provides high throughput for bioassays and it reduces the number of control pins by identifying and connecting control pins with "compatible" actuation sequences. The proposed method is evaluated using a multifunctional chip designed to execute a set of multiplexed bioassays, the polymerase chain reaction, and a protein dilution assay.
Author	Chakrabarty, Krishnendu Xu, Tao
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SubjectTerms	Chemistry Crystallization DNA Droplet-based microfluidics Electrodes electrowetting-on-dielectric Hardware -- Hardware validation Hardware -- Integrated circuits -- Logic circuits Hardware -- Integrated circuits -- Logic circuits -- Arithmetic and datapath circuits Heating Immune system Lab-on-a-chip lab-on-chip Microfluidics Pins Proteins
Title	Broadcast electrode-addressing for pin-constrained multi-functional digital microfluidic biochips
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