Biomedical Engineering Reference
In-Depth Information
13. Fair, R. B., A. Khlystov, T. D. Tailor, V. Ivanov, R. D. Evans, P. B. Griffin,
V. Srinivasan, V. K. Pamula, M. G. Pollack, and J. Zhou, Chemical and biologi-
cal applications of digital-microfluidic devices,
IEEE Design & Test of Computers
,
vol. 24, pp. 10-24, 2007.
14. Su, F. and K. Chakrabarty, High-level synthesis of digital microfluidic biochips,
ACM Journal on Emerging Technologies in Computing Systems
, vol. 3, Article 16,
January 2008. (for general reference; not cited in text.)
15. Su, F. and K. Chakrabarty, Unified high-level synthesis and module place-
ment for defect-tolerant microfluidic biochips,
Proceeding of IEEE/ACM Design
Automation Conference
, pp. 825-830, 2005.
16. Yuh, P.-H., C.-L. Yang, and C.-W. Chang, Placement of defect-tolerant digital
microfluidic biochips using the T-tree formulation,
ACM Journal on Emerging
Technologies in Computing Systems
, vol. 3, issue 3, 2007.
17. Ricketts, A. J., K. Irick, N. Vijaykrishnan, and M. J. Irwin, Priority scheduling in
digital microfluidics-based biochips,
Proceeding of IEEE Design, Automation and
Test in Europe (DATE) Conference
, pp. 329-334, 2006.
18. Pfeiffer, J., T. Mukherjee, and S. Hauan, Synthesis of multiplexed biofluidic
microchips,
IEEE Transactions on Computer-Aided Design of Integrated Circuits and
Systems
, vol. 2, pp. 321-333, 2006.
19. International Technology Roadmap for Semiconductors,
http://public.itrs.net/
20. Su, F., Synthesis, Testing, and Reconfiguration Techniques for Digital Microfluidic
Biochips, Ph.D. thesis, Duke University, Durham, NC, 2006.
21. Chen, X., D. F. Cui, C. Liu, H. Li, and J. Chen, Continuous flow microfluidic
device for cell separation, cell lysis and DNA purification,
Analytica Chimica
Acta
, vol. 584, pp. 237-243, 2007.
22. Pollack, M. G., R. B. Fair, and A. D. Shenderov, Electrowetting-based actuation
of liquid droplets for microfluidic applications,
Applied Physics Letters,
vol. 77,
pp. 1725-1726, 2000.
23. Srinvasan, V., V. K. Pamula, and R. B. Fair, Droplet-based microfluidic lab-on-
a-chip for glucose detection,
Analytica Chimica Acta
, vol. 507, no. 1, pp. 145-150,
2004.
24. Advanced Liquid Logic, Inc.,
http://www.liquid-logic.com
.
25. Gong, J. and C. J. Kim, Two-dimensional digital microfluidic system by multi-
layer printed circuit board,
Proceeding of IEEE MEMS
, pp. 726-729, 2005. (for
general reference; not cited in text.)
26. Böhringer, K. F., Modeling and controlling parallel tasks in droplet-based micro-
fluidic systems,
IEEE Transactions on Computer-Aided Design of Integrated Circuits
and Systems
, vol. 25, pp. 329-339, 2006.
27. Su, F., W. L. Hwang, and K. Chakrabarty, Droplet routing in the synthesis of
digital microfluidic biochips,
Proceeding of IEEE Design, Automation and Test in
Europe (DATE) Conference
, pp. 323-328, 2006.
28. Su, F., S. Ozev, and K. Chakrabarty, Testing of droplet-based microelectrofluidic
systems,
Proceeding of IEEE International Test Conference
, pp. 1192-1200, 2003.
29. Su, F., S. Ozev, and K. Chakrabarty, Ensuring the operational health of droplet-
based microelectrofluidic biosensor systems,
IEEE Sensors Journal
, vol. 5,
pp. 763-773, 2005.
30. Kerkhoff, H. G. and M. Acar, Testable design and testing of micro-electro-fluidic
arrays,
Proceeding of IEEE VLSI Test Symposium
, pp. 403-409, 2003.
