Hardware Reference
In-Depth Information
References
1. K. Chakrabarty and F. Su,
Digital Microfluidic Biochips: Synthesis, Testing, and Reconfigura-
tion Techniques
, Boca Raton, FL: CRC Press, 2006.
2. T.-W. Huang, C.-H. Lin, and T.-Y. Ho, “A contamination aware droplet routing algorithm for
the synthesis of digital microfluidic biochips”,
IEEE Transactions on Computer-Aided Design
of Integrated Circuits and Systems
, vol. 29, no. 11, pp. 1682-1695, 2010.
3. E. Maftei, P. Pop, and J. Madsen, “Routing-based synthesis of digital microfluidic biochips”,
Proceedings of the 2010 International conference on Compilers, Architectures and Synthesis
for Embedded Systems
, pp. 41-50, 2010.
4. T.-W. Huang and T.-Y. Ho, “A two-stage ILP-based droplet routing algorithm for pin-
constrained digital microfluidic biochips”,
IEEE Transactions on Computer-Aided Design of
Integrated Circuits and Systems
, vol 30, no. 2, pp. 215-228, 2011.
5. M. Iyengar and M. McGuire, “Imprecise and qualitative probability in systems biology”,
International Conference on Systems Biology
, 2007.
6. O. Levenspiel,
Chemical Reaction Engineering
, New York: Wiley, 1999.
7. J. Verheijen and M. Prins, “Reversible electrowetting and trapping of charge: model and
experiments”,
ACS J. Langmuir
, No. 15, pp. 6616-620, 1999.
8. J. Park, S. Lee, and L. Kanga, “Fast and reliable droplet transport on single-plate electrowetting
on dielectrics using nonfloating switching method”,
Biomicrofluidics
, vol. 4, Issue. 2, pp. 1-8,
2010.
9. E. Welch, Y.-Y. Lin, A. Madison, and R. Fair, “Picoliter DNA sequencing chemistry on an
electrowetting-based digital microfluidic platform”,
Biotech. J.
, vol. 6, pp. 165-176, 2011.
10. S. Kotchoni, E. Gachomo, E. Betiku, and O. Shonukan, “A home made kit for plasmid DNA
mini-preparation”,
African J. Biotech.
, vol. 2, pp. 88-90, 2003.
11. Y. Zhao, T. Xu, and K. Chakrabarty, “Integrated control-path design and error recovery in
digital microfluidic lab-on-chip”,
ACM JETC
, vol. 3, no. 11, 2010.
12. C. Mein, B. Barratt, M. Dunn, T. Siegmund, A. Smith, L. Esposito, S. Nutland, H. Stevens,
A. Wilson, M. Phillips, N. Jarvis, S. Law, M. Arruda, and J. Todd, “Evaluation of single
nucleotide polymorphism typing with invader on PCR amplicons and its automation”,
Genome
Res.
, vol. 10, pp. 330-343, 2000.
13. R. Fair, “Digital microfluidics: Is a true lab-on-a-chip possible?”,
Microfluidics and Nanoflu-
idics
, vol. 3, pp. 245-281, 2007.
14. W. Bialek and J. Onuchic, “Protein dynamics and reaction rates: mode-specific chemistry in
large molecules?”,
Proceedings of the National Academy of Sciences of the United States of
America
, vol. 85, pp. 5908-5912, 1988.
15. N. Jokerst, L. Luan, S. Palit, M. Royal, S. Dhar, M. Brooke, and T. Tyler II, “Progress in
chip-scale photonic sensing”,
IEEE Trans. Biomedical Circuits and Sys.
, vol. 3, pp. 202-211,
2009.
16. R. Evans et. al., “Optical detection heterogeneously integrated with a coplanar digital
microfluidic lab-on-a-chip platform”,
Proc. IEEE Sensors Conf.
, pp. 423-426, Oct. 2007.
17. Y. Luo, K. Chakrabarty, and T.-Y. Ho, “A cyberphysical synthesis approach for error recovery
in digital microfluidic biochips”,
Proc. DATE
, pp. 1239-1244, 2012.
18. Y. Zhao and K. Chakrabarty, “Digital microfluidic logic gates and their application to built-
in self-test of lab-on-chip”,
IEEE Transactions on Biomedical Circuits and Systems
,vol.4,
pp. 250-262, 2010.
19. B. Hadwen, G. Broder, D. Morganti, A. Jacobs, C. Brown, J. Hector, Y. Kubota, and H.
Morgan, “Programmable large area digital microfluidic array with integrated droplet sensing
for bioassays”,
LabonaChip
, pp. 3305-3313, 2012.
20. M. Jebrail and A. Wheeler, “Let's get digital: digitizing chemical biology with microfluidics”,
Current Opinion in Chemical Biology
, vol. 14, pp. 574-581, 2010.
21. U. Resch-Genger et. al., “Quantum dots versus organic dyes as fluorescent labels”,
Nature
Methods
, pp. 763-775, 2008
