Publications

Published Books
  1. Chemical Sensors, Business Intelligence Program, 751 SRI International, 1987, M. J. Madou, G. S. Gaisford, and F. Gentile, NIST Publishing, 1987.
  2. Chemical Sensing with Solid State Devices, M. J. Madou and S. R. Morrison, Academic Press, 1989. Graduate level introduction to solid state chemical sensors, 556 pages.
  3. Fundamentals of Microfabrication, M. J. Madou, CRC Press, November 1997, Graduate level introduction to microfabrication, 589 pages. Fifth printing, 2000.
  4. Fundamentals of Microfabrication, 2nd edition, M. J. Madou, CRC Press, Fifth Printing, 723 pages, 2002.
  5. Solid-State Physics, Fluidics, and Analytical Techniques in Micro- and Nanotechnology, M.J. Madou, Taylor&Francis, July 2011.
  6. Manufacturing Techniques for Microfabrication and Nanotechnology, M.J.Madou, Taylor &Francis, July 2011.
  7. From MEMS to Bio-MEMS and Bio-NEMS: Manufacturing Techniques and Applications, M.J. Madou, Taylor&Francis, July 2011.
  8. Question and Answerbooks for 5,6 and 7, Taylor &Francis, 2011.
  9. In preparation. Swati Sharma and Marc Madou. Micro and Nanofabrication with Carbon. CRC Press (Taylor and Francis group), Boca Raton, USA. Expected year of completion: 2017.
  10. Carbon: The Next Silicon? Book 1 – Fundamentals, Editors: Madou, M., Perez-Gonzalez, V.H., Pramanick, B., Momentum Press, 2016. ISBN-13: 978-1-60650-723-0 (print) ISBN-13: 978-1-60650-724-7 (e-book)
  11. Carbon: The Next Silicon? Book 2 – Applications, Editors: Madou, M., Perez-Gonzalez, V.H., Pramanick, B., Momentum Press, 2016. ISBN-13: 978-1-60650-883-1 (print) ISBN-13: 978-1-60650-884-8 (e-book).
Edited Books
  1. Chemical Sensors for Extreme Environments, SRI Microscience Program volume on Sensors, Co-Editor, 1987.
  2. Applications of Micromachining in Solid-State Chemical Sensors, M. Madou and J. Joseph, Eds. in “Opportunities for Innovation: Chemical and Biological Sensors Washington: National Institute of Science and Technology (1991). NIST Publication GCR 91-593-1 [Oct. 1991].
  3.  Overview of Solid Electrolytes for Sensors, Proceedings of the International School of Materials Science and Technology. 24th Course: Solid State Ionics for Sensors and Electrochromics Erice-Sicily: 1-12 July 1992, Madou, M. J., S. Oh, and F. de Schutter, Eds. 1992.
  4.  Nano-and Micromechanical Systems (NEMS and MEMS) and Molecular machines. Editors: David A. LaVan, Arturo A. Ayon, Thomas E. Buchheit and M. J. Madou, Mark E. McNie, S. V. Prasad. MRS. Materials Research Society. Symposium Proceedings. Volume 741. Fall Meeting 2002 (December 2-4, 2002, Boston).
  5. Micro- and Nanoystems (NEMS and MEMS) and Molecular machines. Editors: David A. LaVan, Arturo A. Ayon, Thomas E. Buchheit and M. J. Madou. MRS. Materials Research Society. Symposium Proceedings. Volume 782. Fall Meeting 2003 (December 1-3, 2003, Boston).
  6. Micromanufacturing: International Assessment of Research and Development, K.F. Ehmann, D. Bourell, M.L. Culpepper, T.J. Hodgson, T.R. Kurfess, M. Madou, K. Rajurkar, R. DeVor, Springer, 2007.
  7.  Bioelectronics, Biointerfaces, and Biomedical Applications 2 (ECS Transactions, Vol 3) [Paperback] Electrochemical Society (Compiler), D. Landheer (Editor), M. J. Deen (Editor), C. Kranz (Editor), M. Madou (Editor) Nov 13, 2007.
  8.  Micro/Nano Fabrication Processes and Materials section of the Encyclopedia of Nanotechnology, Bharat (Ed.) 1st Edition, 2012, Approx. 2400 p. M.J. Madou and C.Wang.
  9. Carbon Micro and Nanofabrication: Fundamentals. Momentum Press, January 2016. Marc Madou, Victor Perez and Bidhan Pramanick.
  10.  Carbon Micro and Nanofabrication: Applications. Momentum Press, January 2016. Marc Madou, Victor Perez and Bidhan Pramanick.
Book Chapters
  1. Chemical Sensors for Extreme Environments, SRI Microscience Program volume on Sensors, Madou, M.,J., Author of 1 Chapter and Co-Editor of Volume,
  2. Applications of Micromachining in Solid-State Chemical Sensors, Madou and J. Joseph, Eds. in “Opportunities for Innovation: Chemical and Biological Sensors Washington: National Institute of Science and Technolo. NIST Publication GCR 91-593-1, Oct. 1991.
  3. Overview of Solid Electrolytes for Sensors, Proceedings of the International School of Materials Science and Technology. 24th Course: Solid State Ionics for Sensors and Electrochromics Erice-Sicily: 1-12 July 1992, Madou, M. J., S. Oh, and F. de Schutter, Eds. 1992.
  4. Integrated Circuit Manufacturing Techniques Applied to Microfabrication, J. Madou and Hyunok Lynn Kim, Chapter 3 in Handbook of Chemical and Biological Sensors, edited by R. F. Taylor and J. S. Schultz for OIP, 1996.
  5. Facilitating Choices of Machining Tools and Materials for ‘Miniaturization Science’: A Review, J. Madou in Tribology Issues and Opportunities in MEMS, Proceedings of the NSF/AFOSR/ASME Workshop held in Columbus, Ohio, USA, 9-11 November 1997, edited by Bharat Bhushan for Kluwer Academic Publishers.
  6. Madou, M.J., Chapter 5 Conference Keynote Address. Biomems: Beyond Batch Fabrication. Novel Microfabrication Options For BioMEMS, Technologies and Commercialization Strategies, Edited and Published by Knowledge Foundation, 2000.
  7. Madou, M. J. and Zhou, H Microscale Manufacturing Process. The CRC Handbook of Mechanical Engineering, 2nd Edition, 2004. edited by Frank Kreith and Yogi Goswami.
  8. Jia, G.; Madou, M. J. MEMS Fabrication. The MEMS Handbook, 2nd Edition, CRC Press, edited by Mohamed Gad-el-Hak, 2004
  9. Jia, G.; Madou, M. J. LIGA and Other Replication Techniques. The MEMS Handbook, 2nd Edition, CRC Press, edited by Mohamed Gad-el-Hak, 2004.
  10. Lee, L. J.; Yu, L.; Koelling, K. W. and Madou, M. J. Injection Molding for Microfluidic Applications. Precision Injection Molding, Edited by Greener, J. and Wimberger-Friedl, R., Hanser/Gardner Publications, 2004.
  11. Benjamin Y Park, Rabih Zaouk, Marc Madou, “Validation of Lithography Based on the Controlled Movement of Light-emitting Particles”, SPIE Microlithography, Emerging Lithographic Technologies VIII, 2004.
  12. Madou, M.J. Microelectromechanical Systems MEMS Manufacturing. Encyclopedia of Biomaterials and Biomedical Engineering, E-EBBE 120013935, Marcel Dekker, Inc., 2004.
  13. C-MEMS. Chunlei Wang and Marc Madou, McGRAW-HILL Yearbook of Science & Technology, 44-46, 2006
  14. Zaouk, B.Y. Park, M.J. Madou, “Photolithography as a Microfabrication Technique,” in Methods in Molecular Biology – Microfluidics Techniques, ed: Shelley D. Minteer, Humana Press, St. Louis, MO, 2006.
  15. Zaouk, B.Y. Park, M.J. Madou, “Fabrication of PDMS Microfluidics Using SU-8 Molds,” in Methods in Molecular Biology – Microfludics Techniques, ed: Shelley D. Minteer, Humana Press, St. Louis, MO, 2006.
  16. Y. Park, R. Zaouk, M.J. Madou, “Fabrication of Microelectrodes Using the Lift-off Technique,” in Methods in Molecular Biology – Microfluidics Techniques, ed: Shelley D. Minteer, Humana Press, St. Louis, MO, 2006.
  17.   B.Y. Park, R. Zaouk, M.J. Madou, “Microlithography for Microfabrication”, The Electrical Engineering Handbook, 3rd Edition-Electronics, Power Electronics, Optoelectronics, Microwaves, Electromagnetics, and Radar, ed: R.C. Dorf, CRC press, Boca Raton, FL, 2006.
  18.  Rajurkar, K., Madou, M. J., “Processes.” In Ehmann, K. F., Bourell, D., Culpepper, M. L., Hodgson, T. J., Kurfess, T. R., Madou, M. J., Rajurkar, K., DeVor, R., Micromanufacturing: International Assessment of Research and Development. Chapter 4. Springer, 2007.
  19.     Madou, M. J., “Non-Lithography Applications.” In Ehmann, K. F., Bourell, D., Culpepper, M. L., Hodgson, T. J., Kurfess, T. R., Madou, M. J., Rajurkar, K., DeVor, R., Micromanufacturing: International Assessment of Research and Development. Chapter 6. Springer, 2007.
  20.  R. Martinez Duarte, G. Turon Teixidor, P. Mukherjee, Q. Kang and M. J. Madou, “Perspectives of Micro and Nanofabrication of Carbon for Electrochemical and Microfluidic Applications” in Microfluidics and Microfabrication edited by S. Chakraborty, Springer, Chapter 5, 181-263 (2009).
  21.   Jim V. Zoval, Guangyao Jia, Horacio Kido, Jitae Kim, Nahui Kim and Marc J. Madou Centrifuge-Based Fluidic Platforms in Springer Handbook of Nanotechnology, Bhushan, Bharat (Ed.) 3rd ed., 2010.
  22.   R. Martinez-Duarte, M. Madou. “SU-8 and its impact on Microfluidics” in Microfluidics and Nanofluidics Handbook edited by S. Mitra and S. Chakraborty. CRC Press/Taylor & Francis Group, Sept 20th, 2011.
  23. L. Kulinsky, M. Madou, “BioMEMS for Drug Delivery”, in “MEMS for biomedical applications” edited by S. Bhansali and V. Vasudev; Woodhead Publishing (2012)
  24.   S. Soroori, L. Kulinsky, M. Madou, “Centrifugal Microfluidics – Characteristics and Possibilities”, Book “Microfluidics and Microscale Transport Processes” edited by Suman Chakraborty, PhD; Taylor and Francis, CRC Press. (2012).
  25.   L. Kulinsky, Z. Noroozi, and M. Madou, “Present Technology and Future Trends in Point of Care Microfluidic Diagnostics”, Book “Microfluidic Diagnostics: Methods and Protocols, Volume 1: Fabrication and Manipulation Protocols” edited by Colin D. Mansfield, PhD; Gareth Jenkins, PhD; Humana Press, Springer Science + Business Media LLC (2013).
  26.   S. Martínez, A. Salazar, M. Madou, “Two-Photon Polymerization as a component of Desktop Integrated Manufacturing Platforms”, in Three-Dimensional Microfabrication Using Two-Photon Polymerization: Fundamentals, Technology, and Applications, Elsevier’s Micro & Nano Technologies book series, pp 374-416, 2015.
  27. Pramanick, B., Meyn, M.M., Srivastava, K., Martinez-Chapa, S.O. and Madou, M., Recent Trends in the Processing and Applications of Carbon Nanotubes and C-MEMS Based Carbon Nanowires, “Recent Trends in Nanotechnology” with Springer.
2016
  1. X. Kong, A. Perebikovsky, J. Moebius, L. Kulinsky, and M. Madou, “Lab-on-a-CD A Fully Integrated Molecular Diagnostic System,” Journal of Laboratory Automation, vol. 21, no. 3, pp. 323–355, Jun. 2016.
  2. Pramanick et al., “Human hair-derived hollow carbon microfibers for electrochemical sensing,” Carbon, vol. 107, pp. 872–877, Oct. 2016.
  3. Kim et al., “3D Carbon Electrode Based Triboelectric Nanogenerator,” Adv. Mater. Technol., p. n/a-n/a, Sep. 2016.
  4. Pramanick, S. O. Martinez-Chapa, and M. J. Madou, “Fabrication of Biocompatible Hollow Microneedles Using the C-MEMS Process for Transdermal Drug Delivery,” ECS Trans., vol. 72, no. 1, pp. 45–50, Apr. 2016.
  5. Sayad et al., “A microfluidic lab-on-a-disc integrated loop mediated isothermal amplification for foodborne pathogen detection,” Sensors and Actuators B: Chemical, vol. 227, pp. 600–609, May 2016.
  6. Smith et al., “CD-Based Microfluidics for Primary Care in Extreme Point-of-Care Settings,” Micromachines, vol. 7, no. 2, p. 22, Jan. 2016.
  7. Mahdi Aeinehvand, F. Ibrahim, W. Al-Faqheri, K. Joseph, and M. Madou, “Recent advances in the development of micropumps, microvalves and micromixers and the integration of carbon electrodes on centrifugal microfluidic platforms,” International Journal of Nanotechnology, 2016.
  8. Soroori S, Rodriguez-Delgado JM, Kido H, Dieck-Assad G, Madou M, Kulinsky L. The use of polybutene for controlling the flow of liquids in centrifugal microfluidic systems. Microfluidics and Nanofluidics. 2016 Jan 1;20(1):26.
2015
  1. Holmberg et al., “Bioelectrochemical Study of Thermostable Pycnoporus sanguineus CS43 Laccase Bioelectrodes Based on Pyrolytic Carbon Nanofibers for Bioelectrocatalytic O2 Reduction,” ACS Catal., vol. 5, no. 12, pp. 7507–7518, Dec. 2015.
  2. Hosseini et al., “Microsphere integrated microfluidic disk: synergy of two techniques for rapid and ultrasensitive dengue detection,” Scientific Reports, vol. 5, p. 16485, Nov. 2015.
  3. Ho, A. G. Narenji, L. Kulinsky, and M. Madou, “The Detachment Process and Release Efficiency of Polypyrrole/Gold Bilayer Actuators,” Journal of Microelectromechanical Systems, vol. 24, no. 5, pp. 1616–1621, Oct. 2015.
  4. Carpentras, L. Kulinsky, and M. Madou, “A Novel Magnetic Active Valve for Lab-on-CD Technology,” Journal of Microelectromechanical Systems, vol. 24, no. 5, pp. 1322–1330, Oct. 2015.
  5. Joseph, F. Ibrahim, J. Cho, T. H. G. Thio, W. Al-Faqheri, and M. Madou, “Design and Development of Micro-Power Generating Device for Biomedical Applications of Lab-on-a-Disc,” PLOS ONE, vol. 10, no. 9, p. e0136519, Sep. 2015.
  6. M. Aeinehvand et al., “Reversible thermo-pneumatic valves on centrifugal microfluidic platforms,” Lab Chip, vol. 15, no. 16, pp. 3358–3369, Jul. 2015.
  7. M. Aeinehvand et al., “Biosensing enhancement of dengue virus using microballoon mixers on centrifugal microfluidic platforms,” Biosensors and Bioelectronics, vol. 67, pp. 424–430, May 2015.
  8. H. G. Thio, F. Ibrahim, W. Al-Faqheri, N. Soin, M. K. Bador, and M. Madou, “Sequential Push-Pull Pumping Mechanism for Washing and Evacuation of an Immunoassay Reaction Chamber on a Microfluidic CD Platform,” PLOS ONE, vol. 10, no. 4, p. e0121836, Apr. 2015.
  9. Al-Faqheri et al., “Development of a Passive Liquid Valve (PLV) Utilizing a Pressure Equilibrium Phenomenon on the Centrifugal Microfluidic Platform,” Sensors (Basel), vol. 15, no. 3, pp. 4658–4676, Feb. 2015.
  10. Al-Faqheri, F. Ibrahim, T. H. G. Thio, M. M. Aeinehvand, H. Arof, and M. Madou, “Development of novel passive check valves for the microfluidic CD platform,” Sensors and Actuators A: Physical, vol. 222, pp. 245–254, Feb. 2015.
  11. Mardegan et al., “Speciation of Trace Levels of Chromium with Bismuth Modified Pyrolyzed Photoresist Carbon Electrodes,” Electroanalysis, vol. 27, no. 1, pp. 128–134, Jan. 2015.
  12. H. Perez-Gonzalez, V. Ho, M. Vazquez-Pinon, S. O. Martinez-Chapa, and L. Kulinsky, “A novel micro/nano fabrication process based on the combined use of dielectrophoresis, electroosmotic flow, and electrodeposition for surface patterning,” J. Micromech. Microeng., vol. 25, no. 11, p. 115007, 2015.
  13. Kazemzadeh, P. Ganesan, F. Ibrahim, L. Kulinsky, and M. J. Madou, “Guided routing on spinning microfluidic platforms,” RSC Adv., vol. 5, no. 12, pp. 8669–8679, 2015.
2014
  1. Roy et al., “From cellular lysis to microarray detection, an integrated thermoplastic elastomer (TPE) point of care Lab on a Disc,” Lab Chip, vol. 15, no. 2, pp. 406–416, Dec. 2014.
  2. Kazemzadeh, P. Ganesan, F. Ibrahim, M. M. Aeinehvand, L. Kulinsky, and M. J. Madou, “Gating valve on spinning microfluidic platforms: A flow switch/control concept,”Sensors and Actuators B: Chemical, vol. 204, pp. 149–158, Dec. 2014.
  3. Silvestrini et al., “Pyrolyzed Photoresist Carbon Electrodes in Aprotic Solvent: Bilirubin Electrochemistry and Interaction with Electrogenerated Superoxide,” Electrochimica Acta, vol. 147, pp. 401–407, Nov. 2014.
  4. Amato et al., “Pyrolysed 3D-Carbon Scaffolds Induce Spontaneous Differentiation of Human Neural Stem Cells and Facilitate Real-Time Dopamine Detection,” Adv. Funct. Mater., vol. 24, no. 44, pp. 7042–7052, Nov. 2014.
  5. X. Kong, K. Parate, K. Abi-Samra, and M. Madou, “Multifunctional wax valves for liquid handling and incubation on a microfluidic CD,” Microfluid Nanofluid, vol. 18, no. 5–6, pp. 1031–1037, Oct. 2014.
  6. Sharma, R. Kamath, and M. Madou, “Porous glassy carbon formed by rapid pyrolysis of phenol-formaldehyde resins and its performance as electrode material for electrochemical double layer capacitors,” Journal of Analytical and Applied Pyrolysis, vol. 108, pp. 12–18, Jul. 2014.
  7. Canton, T. Do, L. Kulinsky, and M. Madou, “Improved conductivity of suspended carbon fibers through integration of C-MEMS and Electro-Mechanical Spinning technologies,” Carbon, vol. 71, pp. 338–342, May 2014.
  8. Bonzon, R. Martinez-Duarte, P. Renaud, and M. Madou, “Biomimetic Pieris rapae’s Nanostructure and Its Use as a Simple Sucrose Sensor,” Micromachines, vol. 5, no. 2, pp. 216–227, Apr. 2014.
  9. Holmberg, A. Perebikovsky, L. Kulinsky, and M. Madou, “3-D Micro and Nano Technologies for Improvements in Electrochemical Power Devices,” Micromachines, vol. 5, no. 2, pp. 171–203, Apr. 2014.
  10. Kamath and M. J. Madou, “Selective Detection of Dopamine against Ascorbic Acid Interference Using 3D Carbon Interdigitated Electrode Arrays,” ECS Trans., vol. 61, no. 7, pp. 65–73, Mar. 2014.
  11. R. Kamath and M. J. Madou, “Three-Dimensional Carbon Interdigitated Electrode Arrays for Redox-Amplification,” Anal. Chem., vol. 86, no. 6, pp. 2963–2971, Mar. 2014.
  12. Hugo, K. Land, M. Madou, and H. Kido, “A centrifugal microfluidic platform for point-of-care diagnostic applications,” South African Journal of Science, vol. 110, no. 1–2, pp. 1–7, Jan. 2014.
  13. M. Aeinehvand et al., “Latex micro-balloon pumping in centrifugal microfluidic platforms,” Lab on a Chip, vol. 14, no. 5, p. 988, 2014.
  14. Soroori S, Kulinsky L, Kido H, Madou M. Design and implementation of fluidic micro-pulleys for flow control on centrifugal microfluidic platforms. Microfluidics and nanofluidics. 2014 Jun 1;16(6):1117-29.
2013
  1. Lim, J.-I. Heo, M. Madou, and H. Shin, “Monolithic carbon structures including suspended single nanowires and nanomeshes as a sensor platform,” Nanoscale Res Lett, vol. 8, no. 1, p. 492, Nov. 2013.
  2. H. Perez-Gonzalez, V. Ho, L. Kulinsky, M. Madou, and S. O. Martinez-Chapa, “PPyDEP: a new approach to microparticle manipulation employing polymer-based electrodes,” Lab Chip, vol. 13, no. 23, pp. 4642–4652, Oct. 2013.
  3. Kazemzadeh, P. Ganesan, F. Ibrahim, S. He, and M. J. Madou, “The Effect of Contact Angles and Capillary Dimensions on the Burst Frequency of Super Hydrophilic and Hydrophilic Centrifugal Microfluidic Platforms, a CFD Study,” PLOS ONE, vol. 8, no. 9, p. e73002, Sep. 2013.
  4. Lee, M. Amasia, M. Madou, and R. J. Mitchell, “Serum complement enhances the responses of genotoxin- and oxidative stress-sensitive Escherichia coli bioreporters,”Biosensors and Bioelectronics, vol. 46, pp. 175–182, Aug. 2013.
  5. -H. Kim et al., “Flow-enhanced electrochemical immunosensors on centrifugal microfluidic platforms,” Lab Chip, vol. 13, no. 18, pp. 3747–3754, Aug. 2013.
  6. H. G. Thio et al., “Push pull microfluidics on a multi-level 3D CD,” Lab Chip, vol. 13, no. 16, pp. 3199–3209, Jul. 2013.
  7. Abi-Samra et al., “Electrochemical velocimetry on centrifugal microfluidic platforms,”Lab Chip, vol. 13, no. 16, pp. 3253–3260, Jul. 2013.
  8. Al-Faqheri et al., “Vacuum/Compression Valving (VCV) Using Parrafin-Wax on a Centrifugal Microfluidic CD Platform,” PLOS ONE, vol. 8, no. 3, p. e58523, Mar. 2013.
  9. -H. Kim, H. Hwang, R. Gorkin, M. Madou, and Y.-K. Cho, “Geometry effects on blood separation rate on a rotating disc,” Sensors and Actuators B: Chemical, vol. 178, pp. 648–655, Mar. 2013.
  10. H. G. Thio et al., “Theoretical development and critical analysis of burst frequency equations for passive valves on centrifugal microfluidic platforms,” Med Biol Eng Comput, vol. 51, no. 5, pp. 525–535, Jan. 2013.
  11. Kulinsky, Z. Noroozi, and M. Madou, “Present Technology and Future Trends in Point-of-Care Microfluidic Diagnostics,” in Microfluidic Diagnostics, G. Jenkins and C. D. Mansfield, Eds. Humana Press, 2013, pp. 3–23.
  12. Ho, C. Zhou, L. Kulinsky, and M. Madou, “Fabrication of 3D polypyrrole microstructures and their utilization as electrodes in supercapacitors,” J. Micromech. Microeng., vol. 23, no. 12, p. 125029, 2013.
  13. Thio TH, Soroori S, Ibrahim F, Al-Faqheri W, Soin N, Kulinsky L, Madou M. Theoretical development and critical analysis of burst frequency equations for passive valves on centrifugal microfluidic platforms. Medical & biological engineering & computing. 2013 May 1;51(5):525-35.
2012
  1. S. Bisht, S. Holmberg, L. Kulinsky, and M. Madou, “Diffusion-Free Mediator Based Miniature Biofuel Cell Anode Fabricated on a Carbon-MEMS Electrode,” Langmuir, vol. 28, no. 39, pp. 14055–14064, Oct. 2012.
  2. Chen, J. C. LaRue, R. D. Nelson, L. Kulinsky, and M. J. Madou, “Electrical conductivity of polymer blends of poly(3,4-ethylenedioxythiophene): Poly(styrenesulfonate): N-methyl-2-pyrrolidinone and polyvinyl alcohol,”  Appl. Polym. Sci., vol. 125, no. 4, pp. 3134–3141, Aug. 2012.
  3. Bisht, S. Nesterenko, L. Kulinsky, and M. Madou, “A Computer-Controlled Near-Field Electrospinning Setup and Its Graphic User Interface for Precision Patterning of Functional Nanofibers on 2D and 3D Substrates,” Journal of Laboratory Automation, vol. 17, no. 4, pp. 302–308, Aug. 2012.
  4. Sharma and M. Madou, “Micro and nano patterning of carbon electrodes for bioMEMS. Bioinspired,” Bioinspired, Biomimetic and Nanobiomaterials, vol. 1, no. BBN4, pp. 252–265, Jun. 2012.
  5. Sharma and M. Madou, “A new approach to gas sensing with nanotechnology,” Phil. Trans. R. Soc. A, vol. 370, no. 1967, pp. 2448–2473, May 2012.
  6. Maitra, S. Sharma, A. Srivastava, Y.-K. Cho, M. Madou, and A. Sharma, “Improved graphitization and electrical conductivity of suspended carbon nanofibers derived from carbon nanotube/polyacrylonitrile composites by directed electrospinning,” Carbon, vol. 50, no. 5, pp. 1753–1761, Apr. 2012.
  7. Cito et al., “Visualization and measurement of capillary-driven blood flow using spectral domain optical coherence tomography,” Microfluid Nanofluid, vol. 13, no. 2, pp. 227–237, Feb. 2012.
  8. Sharma, A. Sharma, Y.-K. Cho, and M. Madou, “Increased Graphitization in Electrospun Single Suspended Carbon Nanowires Integrated with Carbon-MEMS and Carbon-NEMS Platforms,” ACS Appl. Mater. Interfaces, vol. 4, no. 1, pp. 34–39, Jan. 2012.
  9. Amasia, M. Cozzens, and M. J. Madou, “Centrifugal microfluidic platform for rapid PCR amplification using integrated thermoelectric heating and ice-valving,” Sensors and Actuators B: Chemical, vol. 161, no. 1, pp. 1191–1197, Jan. 2012.
  10. Ho, A. G. Narenji, L. Kulinsky, and M. Madou, “The effects of bilayer geometry on the detachment process and operation efficiency of polypyrrole/gold bilayer actuators,”IEEE/ASME Journal of Microelectromechanical Systems, 2012.
  11. Bisht, S. Nesterenko, G. Canton, L. Kulinsky, and M. Madou, “Controlled Micropatterning of Conducting PEDOT Nanofiber Arrays Using Low-Voltage Near-Field Electrospinning,” ACS Macro Letters, 2012.
  12. Gorkin R, Soroori S, Southard W, Clime L, Veres T, Kido H, Kulinsky L, Madou M. Suction-enhanced siphon valves for centrifugal microfluidic platforms. Microfluidics and nanofluidics. 2012 Jan 1;12(1-4):345-54.
  13. Gorkin R, Soroori S, Southard W, Clime L, Veres T, Kido H, Kulinsky L, Madou M. Suction-enhanced siphon valves for centrifugal microfluidic platforms. Microfluidics and nanofluidics. 2012 Jan 1;12(1-4):345-54.
2011
  1. Chen et al., “Mechanical characterizations of cast Poly(3,4-ethylenedioxythiophene):Poly(styrenesulfonate)/Polyvinyl Alcohol thin films,” Synthetic Metals, vol. 161, no. 21–22, pp. 2259–2267, Nov. 2011.
  2. Gorkin et al., “Suction-enhanced siphon valves for centrifugal microfluidic platforms,” Microfluid Nanofluid, vol. 12, no. 1–4, pp. 345–354, Sep. 2011.
  3. Martinez-Duarte, P. Renaud, and M. J. Madou, “A novel approach to dielectrophoresis using carbon electrodes,” Electrophoresis, vol. 32, no. 17, pp. 2385–2392, Sep. 2011.
  4. Chakraborty, M. Madou, and S. Chakraborty, “Anomalous mixing behaviour in rotationally actuated microfluidic devices,” Lab Chip, vol. 11, no. 17, pp. 2823–2826, Aug. 2011.
  5. Abi-Samra et al., “Thermo-pneumatic pumping in centrifugal microfluidic platforms,”Microfluid Nanofluid, vol. 11, no. 5, pp. 643–652, Jun. 2011.
  6. Noroozi et al., “A multiplexed immunoassay system based upon reciprocating centrifugal microfluidics,” Rev Sci Instrum, vol. 82, no. 6, Jun. 2011.
  7. C. i Solvas, R. A. Lambert, L. Kulinsky, R. H. Rangel, and M. J. Madou, “Micromixing and flow manipulation with polymer microactuators,” Microfluid Nanofluid, vol. 11, no. 4, pp. 405–416, Apr. 2011.
  8. S. Bisht et al., “Controlled Continuous Patterning of Polymeric Nanofibers on Three-Dimensional Substrates Using Low-Voltage Near-Field Electrospinning,” Nano Lett., vol. 11, no. 4, pp. 1831–1837, Apr. 2011.
  9. S. Sharma, H. Katepalli, A. Sharma, and M. Madou, “Fabrication and electrical conductivity of suspended carbon nanofiber arrays,” Carbon, vol. 49, no. 5, pp. 1727–1732, Apr. 2011.
  10. Rammohan, P. K. Dwivedi, R. Martinez-Duarte, H. Katepalli, M. J. Madou, and A. Sharma, “One-step maskless grayscale lithography for the fabrication of 3-dimensional structures in SU-8,” Sensors and Actuators B: Chemical, vol. 153, no. 1, pp. 125–134, Mar. 2011.
  11. I. Heo, D. S. Shim, G. T. Teixidor, S. Oh, M. J. Madou, and H. Shin, “Carbon Interdigitated Array Nanoelectrodes for Electrochemical Applications,” J. Electrochem. Soc., vol. 158, no. 3, pp. J76–J80, Mar. 2011.
  12. Abi-Samra, R. Hanson, M. Madou, and R. A. G. Iii, “Infrared controlled waxes for liquid handling and storage on a CD-microfluidic platform,” Lab Chip, vol. 11, no. 4, pp. 723–726, Jan. 2011.
  13. Noroozi, H. Kido, and M. J. Madou, “Electrolysis-Induced Pneumatic Pressure for Control of Liquids in a Centrifugal System,” J. Electrochem. Soc., vol. 158, no. 11, pp. P130–P135, Jan. 2011.
2010
  1. Amasia and M. Madou, “Large-volume centrifugal microfluidic device for blood plasma separation,” Bioanalysis, vol. 2, no. 10, pp. 1701–1710, Oct. 2010.
  2. Siegrist et al., “Continuous glucose sensor using novel genetically engineered binding polypeptides towards in vivo applications,” Sensors and Actuators B: Chemical, vol. 149, no. 1, pp. 51–58, Aug. 2010.
  3. Wang, L. Pham, G. P. S. de Vasconcellos, and M. Madou, “Fabrication and characterization of micro PEM fuel cells using pyrolyzed carbon current collector plates,”Journal of Power Sources, vol. 195, no. 15, pp. 4796–4803, Aug. 2010.
  4. Siegrist, R. Peytavi, M. Bergeron, and M. Madou, “Microfluidics for IVD Analysis: Triumphs and Hurdles of Centrifugal Platforms – Part 3: A Vision for Tomorrow,” IVD Technology DX Directions, Mar. 2010.
  5. Gorkin, L. Clime, M. Madou, and H. Kido, “Pneumatic pumping in centrifugal microfluidic platforms,” Microfluid Nanofluid, vol. 9, no. 2–3, pp. 541–549, Feb. 2010.
  6. S. Sharma, A. Sharma, and M. Madou, “Multiscale Carbon Structures Fabricated by Direct Micropatterning of Electrospun Mats of SU-8 Photoresist Nanofibers,” Langmuir, vol. 26, no. 4, pp. 2218–2222, Feb. 2010.
  7. Siegrist, R. Peytavi, M. Bergeron, and M. Madou, “Microfluidics for IVD Analysis: Triumphs and Hurdles of Centrifugal Platforms – Part 2: Centrifugal Microfluidics,” IVD Technology, Feb. 2010.
  8. Siegrist et al., “Validation of a centrifugal microfluidic sample lysis and homogenization platform for nucleic acidextraction with clinical samples,” Lab Chip, vol. 10, no. 3, pp. 363–371, 2010.
  9. Siegrist, M. Amasia, N. Singh, D. Banerjee, and M. Madou, “Numerical modeling and experimental validation of uniform microchamber filling in centrifugal microfluidics,” Lab on a Chip, vol. 10, no. 7, p. 876, 2010.
  10. Martinez-Duarte, R. A. Gorkin III, K. Abi-Samra, and M. J. Madou, “The integration of 3D carbon-electrode dielectrophoresis on a CD-like centrifugal microfluidic platform,” Lab on a Chip, vol. 10, no. 8, p. 1030, 2010.
  11. Gorkin et al., “Centrifugal microfluidics for biomedical applications,” Lab on a Chip, vol. 10, no. 14, p. 1758, 2010.
2009
  1. Siegrist et al., “Serial siphon valving for centrifugal microfluidic platforms,” Microfluid Nanofluid, vol. 9, no. 1, pp. 55–63, Nov. 2009.
  2. Turon Teixidor, B. Y. Park, P. P. Mukherjee, Q. Kang, and M. J. Madou, “Modeling fractal electrodes for Li-ion batteries,” Electrochimica Acta, vol. 54, no. 24, pp. 5928–5936, Oct. 2009.
  3. Noroozi et al., “Reciprocating flow-based centrifugal microfluidics mixer,” Review of Scientific Instruments, vol. 80, no. 7, p. 75102, Jul. 2009.
  4. Chakraborty, R. Gorkin, M. Madou, L. Kulinsky, and S. Chakraborty, “Capillary filling in centrifugally actuated microfluidic devices with dynamically evolving contact line motion,”Journal of Applied Physics, vol. 105, no. 8, p. 84904, Apr. 2009.
  5. S. Sharma, M. M. Kulkarni, A. Sharma, and M. Madou, “Synthesis of carbon xerogel particles and fractal-like structures,” Chemical Engineering Science, vol. 64, no. 7, pp. 1536–1543, Apr. 2009.
  6. H. D. Skjolding, G. T. Teixidor, J. Emnéus, and L. Montelius, “Negative UV–NIL (NUV–NIL) – A mix-and-match NIL and UV strategy for realisation of nano- and micrometre structures,” Microelectronic Engineering, vol. 86, no. 4–6, pp. 654–656, Apr. 2009.
  7. C. i Solvas, R. A. Lambert, L. Kulinsky, R. H. Rangel, and M. J. Madou, “Au/PPy Actuators for Active Micromixing and Mass Transport Enhancement,” ResearchGate, Jan. 2009.
  8. Siegrist, R. Peytavi, M. G. Bergeron, and M. Madou, “Microfluidics for IVD Analysis: Triumphs and Hurdles of Centrifugal Platforms – Part 1: Molecular Fundamentals,”ResearchGate, vol. 15, pp. 22–26, Jan. 2009.
2008
  1. Teixidor, R. B. Zaouk, B. Y. Park, and M. J. Madou, “Fabrication and characterization of three-dimensional carbon electrodes for lithium-ion batteries,” Journal of Power Sources, vol. 183, no. 2, pp. 730–740, Sep. 2008.
  2. A. Lambert, S. Das, M. J. Madou, S. Chakraborty, and R. H. Rangel, “Rapid macromolecular synthesis in a microfluidic channel with an oscillating flap,” International Journal of Heat and Mass Transfer, vol. 51, no. 17–18, pp. 4367–4378, Aug. 2008.
  3. Xu, K. Malladi, C. Wang, L. Kulinsky, M. Song, and M. Madou, “Carbon post-microarrays for glucose sensors,” Biosensors and Bioelectronics, vol. 23, no. 11, pp. 1637–1644, Jun. 2008.
  4. -S. Min et al., “Fabrication and properties of a carbon/polypyrrole three-dimensional microbattery,” Journal of Power Sources, vol. 178, no. 2, pp. 795–800, Apr. 2008.
  5. -C. Lin, B. Y. Park, and M. J. Madou, “Development and characterization of a miniature PEM fuel cell stack with carbon bipolar plates,” Journal of Power Sources, vol. 176, no. 1, pp. 207–214, Jan. 2008.
  6. Kim, H. Kido, R. H. Rangel, and M. J. Madou, “Passive flow switching valves on a centrifugal microfluidic platform,” Sensors and Actuators B: Chemical, vol. 128, no. 2, pp. 613–621, Jan. 2008.
  7. Wang, R. Zaouk, B. Y. Park, and M. J. Madou, “Carbon as a MEMS material: micro and nanofabrication of pyrolysed photoresist carbon,” International Journal of Manufacturing Technology and Management, vol. 13, no. 2–4, pp. 360–375, Jan. 2008.
  8. Rouabah, B. Y. Park, R. B. Zaouk, M. J. Madou, and N. G. Green, “Producing fluid flow using 3D carbon electrodes,” J. Phys.: Conf. Ser., vol. 142, no. 1, p. 12072, 2008.
  9. Martinez-Duarte, S. Cito, E. Collado-Arrendondo, S. O. Martinez, and M. Madou, “Fluido-dynamic and Electromagnetic Characterization of 3D Carbon Dielectrophoresis with Finite Element Analysis,” Sensors & Transducers Journal, vol. 3, no. Special Issue, pp. 25–36, 2008.
2007
  1. Watts et al., “Centrifugal Microfluidics with Integrated Sensing Microdome Optodes for Multiion Detection,” Anal. Chem., vol. 79, no. 21, pp. 8046–8054, Nov. 2007.
  2. -K. A. Tsai and M. Madou, “Microfabrication of Bilayer Polymer Actuator Valves for Controlled Drug Delivery,” Journal of Laboratory Automation, vol. 12, no. 5, pp. 291–295, Oct. 2007.
  3. Kim et al., “Gravity Force Transduced by the MEC-4/MEC-10 DEG/ENaC Channel Modulates DAF-16/FoxO Activity in Caenorhabditis elegans,” Genetics, vol. 177, no. 2, pp. 835–845, Oct. 2007.
  4. Kido, M. Micic, D. Smith, J. Zoval, J. Norton, and M. Madou, “A novel, compact disk-like centrifugal microfluidics system for cell lysis and sample homogenization,” Colloids and Surfaces B: Biointerfaces, vol. 58, no. 1, pp. 44–51, Jul. 2007.
  5. Jia et al., “A low-cost, disposable card for rapid polymerase chain reaction,” Colloids and Surfaces B: Biointerfaces, vol. 58, no. 1, pp. 52–60, Jul. 2007.
  6. Kim, C. M. Dempsey, J. V. Zoval, J.-Y. Sze, and M. J. Madou, “Automated microfluidic compact disc (CD) cultivation system of Caenorhabditis elegans,” Sensors and Actuators B: Chemical, vol. 122, no. 2, pp. 511–518, Mar. 2007.
  7. Y. Park, R. Zaouk, C. Wang, and M. J. Madou, “A Case for Fractal Electrodes in Electrochemical Applications,” J. Electrochem. Soc., vol. 154, no. 2, pp. P1–P5, Feb. 2007.
  8. -K. A. Tsai et al., “Development of integrated protection for a miniaturized drug delivery system,” Smart Mater. Struct., vol. 16, no. 2, p. S295, 2007.
2006
  1. Y. Park and M. J. Madou, “Design, fabrication, and initial testing of a miniature PEM fuel cell with micro-scale pyrolyzed carbon fluidic plates,” Journal of Power Sources, vol. 162, no. 1, pp. 369–379, Nov. 2006.
  2. Wang, R. Zaouk, and M. Madou, “Local chemical vapor deposition of carbon nanofibers from photoresist,” Carbon, vol. 44, no. 14, pp. 3073–3077, Nov. 2006.
  3. Malladi, C. Wang, and M. Madou, “Fabrication of suspended carbon microstructures by e-beam writer and pyrolysis,” Carbon, vol. 44, no. 13, pp. 2602–2607, Nov. 2006.
  4. Galobardes, C. Wang, and M. Madou, “Investigation on the solid electrolyte interface formed on pyrolyzed photoresist carbon anodes for C-MEMS lithium-ion batteries,” Diamond and Related Materials, vol. 15, no. 11–12, pp. 1930–1934, Nov. 2006.
  5. A. Moschou, M. J. Madou, L. G. Bachas, and S. Daunert, “Voltage-switchable artificial muscles actuating at near neutral pH,” Sensors and Actuators B: Chemical, vol. 115, no. 1, pp. 379–383, May 2006.
  6. Xu, C. Wang, C. Wang, J. Zoval, and M. Madou, “Polymer actuator valves toward controlled drug delivery application,” Biosensors and Bioelectronics, vol. 21, no. 11, pp. 2094–2099, May 2006.
  7. A. Moschou et al., “Integration of microcolumns and microfluidic fractionators on multitasking centrifugal microfluidic platforms for the analysis of biomolecules,” Anal Bioanal Chem, vol. 385, no. 3, p. 596, May 2006.
  8. Y. Park, A. Paradiso, M. Kawabe, and M. J. Madou, “A novel dielectrophoretic oil filter,” Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering, vol. 220, no. 4, pp. 481–496, Apr. 2006.
  9. Xu, V. V. Konovalov, C. I. Contescu, S. M. Jaffe, and M. Madou, “Water transport in a non-aqueous, polypyrrole electrochemical cell,” Sensors and Actuators B: Chemical, vol. 114, no. 1, pp. 248–253, Mar. 2006.
  10. -S. Ma, H. Zhou, J. Zoval, and M. Madou, “DNA hybridization detection by label free versus impedance amplifying label with impedance spectroscopy,” Sensors and Actuators B: Chemical, vol. 114, no. 1, pp. 58–64, Mar. 2006.
  11. Jia et al., “Dynamic automated DNA hybridization on a CD (compact disc) fluidic platform,” Sensors and Actuators B: Chemical, vol. 114, no. 1, pp. 173–181, Mar. 2006.
  12. -S. Kim, A. Marafie, X.-Y. Jia, J. V. Zoval, and M. J. Madou, “Characterization of DNA hybridization kinetics in a microfluidic flow channel,” Sensors and Actuators B: Chemical, vol. 113, no. 1, pp. 281–289, Jan. 2006.
  13. Nicholson et al., “Protein Chromatographic Analysis on Methacrylate-Based Monolithic Columns Integrated on Compact Disk Microfluidic Platforms,” Analytical and Bioanalytical Chemistry, vol. 385, no. 3, pp. 596–605, 2006.
  14. Madou, J. Zoval, G. Jia, H. Kido, J. Kim, and N. Kim, “Lab on a Cd,” Annual Review of Biomedical Engineering, vol. 8, no. 1, pp. 601–628, 2006.
2005 and before
  1. Y. Park, L. Taherabadi, C. Wang, J. Zoval, and M. J. Madou, “Electrical Properties and Shrinkage of Carbonized Photoresist Films and the Implications for Carbon Microelectromechanical Systems Devices in Conductive Media,” J. Electrochem. Soc., vol. 152, no. 12, pp. J136–J143, Dec. 2005.
  2. Y. Park and M. J. Madou, “3-D electrode designs for flow-through dielectrophoretic systems,” ELECTROPHORESIS, vol. 26, no. 19, pp. 3745–3757, Oct. 2005.
  3. Rothert, S. K. Deo, L. Millner, L. G. Puckett, M. J. Madou, and S. Daunert, “Whole-cell-reporter-gene-based biosensing systems on a compact disk microfluidics platform,”Analytical Biochemistry, vol. 342, no. 1, pp. 11–19, Jul. 2005.
  4. Wang, G. Jia, L. H. Taherabadi, and M. J. Madou, “A novel method for the fabrication of high-aspect ratio C-MEMS structures,” Journal of Microelectromechanical Systems, vol. 14, no. 2, pp. 348–358, Apr. 2005.
  5. D. Ehrick, S. K. Deo, T. W. Browning, L. G. Bachas, M. J. Madou, and S. Daunert, “Genetically engineered protein in hydrogels tailors stimuli-responsive characteristics,” Nat Mater, vol. 4, no. 4, pp. 298–302, Apr. 2005.
  6. Puckett, E. Dikici, S. Lai, M. Madou, L. G. Bachas, and S. Daunert, “Investigation into the Applicability of the Centrifugal Microfluidics Platform for the Development of Protein−Ligand Binding Assays Incorporating Enhanced Green Fluorescent Protein as a Fluorescent Reporter,” Anal. Chem., vol. 76, no. 24, pp. 7263–7268, Dec. 2004.
  7. Wang, L. Taherabadi, G. Jia, M. Madou, Y. Yeh, and B. Dunn, “C-MEMS for the Manufacture of 3D Microbatteries,” Electrochem. Solid-State Lett., vol. 7, no. 11, pp. A435–A438, Nov. 2004.
  8. A. Moschou, S. F. Peteu, L. G. Bachas, M. J. Madou, and S. Daunert, “Artificial Muscle Material with Fast Electroactuation under Neutral pH Conditions,” Chem. Mater., vol. 16, no. 12, pp. 2499–2502, Jun. 2004.
  9. Vaed, J. Florkey, S. A. Akbar, M. J. Madou, J. J. Lannutti, and S. S. Cahill, “An additive micromolding approach for the development of micromachined ceramic substrates for RF applications,” Journal of Microelectromechanical Systems, vol. 13, no. 3, pp. 514–525, Jun. 2004.
  10. Lai, S. Wang, J. Luo, L. J. Lee, S.-T. Yang, and M. J. Madou, “Design of a Compact Disk-like Microfluidic Platform for Enzyme-Linked Immunosorbent Assay,” Anal. Chem., vol. 76, no. 7, pp. 1832–1837, Apr. 2004.
  11. V. Zoval and M. J. Madou, “Centrifuge-based fluidic platforms,” Proceedings of the IEEE, vol. 92, no. 1, pp. 140–153, Jan. 2004.
  12. Kim, S. Hee Jang, G. Jia, J. V. Zoval, N. A. Da Silva, and M. J. Madou, “Cell lysis on a microfluidic CD (compact disc),” Lab on a Chip, vol. 4, no. 5, p. 516, 2004.
  13. K. Kassegne et al., “Numerical modeling of transport and accumulation of DNA on electronically active biochips,” Sensors and Actuators B: Chemical, vol. 94, no. 1, pp. 81–98, Aug. 2003.
  14. Madou and R. Cubicciotti, “Scaling issues in chemical and biological sensors,”Proceedings of the IEEE, vol. 91, no. 6, pp. 830–838, Jun. 2003.
  15. K. Deo et al., “Peer Reviewed: Responsive Drug Delivery Systems,” Anal. Chem., vol. 75, no. 9, p. 206 A-213 A, May 2003.
  16. A. Badr, R. D. Johnson, M. J. Madou, and L. G. Bachas, “Fluorescent Ion-Selective Optode Membranes Incorporated onto a Centrifugal Microfluidics Platform,” Anal. Chem., vol. 74, no. 21, pp. 5569–5575, Nov. 2002.
  17. Yu, C. G. Koh, L. J. Lee, K. W. Koelling, and M. J. Madou, “Experimental investigation and numerical simulation of injection molding with micro-features,” Polym Eng Sci, vol. 42, no. 5, pp. 871–888, May 2002.
  18. Singh, J. Jayaram, M. Madou, and S. Akbar, “Pyrolysis of Negative Photoresists to Fabricate Carbon Structures for Microelectromechanical Systems and Electrochemical Applications,” J. Electrochem. Soc., vol. 149, no. 3, pp. E78–E83, Mar. 2002.
  19. Wang, S. Yao, and M. Madou, “A long-term stable iridium oxide pH electrode,”Sensors and Actuators B: Chemical, vol. 81, no. 2–3, pp. 313–315, Jan. 2002.
  20. K. Kassegne et al., “Microelectro-optical DNA array sensor,” 2002, vol. 4700, pp. 323–330.
  21. Kassegne et al., “Design issues in SOI-based high-sensitivity piezoresistive cantilever devices,” 2002, vol. 4693, pp. 588–597.
  22. Huang, E. L. Mather, J. L. Bell, and M. Madou, “MEMS-based sample preparation for molecular diagnostics,” Anal Bioanal Chem, vol. 372, no. 1, pp. 49–65, Dec. 2001.
  23. D. Johnson et al., “Development of a Fully Integrated Analysis System for Ions Based on Ion-Selective Optodes and Centrifugal Microfluidics,” Anal. Chem., vol. 73, no. 16, pp. 3940–3946, Aug. 2001.
  24. Yao, M. Wang, and M. Madou, “A pH Electrode Based on Melt-Oxidized Iridium Oxide,” J. Electrochem. Soc., vol. 148, no. 4, pp. H29–H36, Apr. 2001.
  25. J. Madou, L. J. Lee, S. Daunert, S. Lai, and C.-H. Shih, “Design and Fabrication of CD-like Microfluidic Platforms for Diagnostics: Microfluidic Functions,” Biomedical Microdevices, vol. 3, no. 3, pp. 245–254, 2001.
  26. J. Lee et al., “Design and Fabrication of CD-Like Microfluidic Platforms for Diagnostics: Polymer-Based Microfabrication,” Biomedical Microdevices, vol. 3, no. 4, pp. 339–351, 2001.
  27. -M. Low, S. Seetharaman, K.-Q. He, and M. J. Madou, “Microactuators toward microvalves for responsive controlled drug delivery,” Sensors and Actuators B: Chemical, vol. 67, no. 1–2, pp. 149–160, Aug. 2000.
  28. Madou and J. Florkey, “From Batch to Continuous Manufacturing of Microbiomedical Devices,” Chem. Rev., vol. 100, no. 7, pp. 2679–2692, Jul. 2000.
  29. Ranganathan, R. McCreery, S. M. Majji, and M. Madou, “Photoresist‐Derived Carbon for Microelectromechanical Systems and Electrochemical Applications,” J. Electrochem. Soc., vol. 147, no. 1, pp. 277–282, Jan. 2000.
  30. J. Madou and K. Q. He, “Exploitation of a novel artificial muscle for controlled drug delivery.,” in ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 2000, vol. 220, pp. U364–U364.
  31. Kim, X. Song, K. Kinoshita, M. Madou, and R. White, “Electrochemical Studies of Carbon Films from Pyrolyzed Photoresist,”  Electrochem. Soc., vol. 145, no. 7, pp. 2314–2319, Jul. 1998.
  32. P. Zent, R. C. Quinn, and M. Madou, “A thermo-acoustic gas sensor array for photochemically critical species in the martian atmosphere,” Planetary and Space Science, vol. 46, no. 6, pp. 795–803, Jun. 1998.
  33. C. Wang, S. A. Akbar, and M. J. Madou, “Ceramic Based Resistive Sensors,” Journal of Electroceramics, vol. 2, no. 4, pp. 273–282, 1998.
  34. J. Somps, J. L. Pickering, M. J. Madou, J. W. Hines, D. L. Gibbs, and M. R. Harrison, “Electrochemical performance of an ion selective, polymeric membrane following chronic implantation in rat subcutaneous tissue,” Sensors and Actuators B: Chemical, vol. 35, no. 1, pp. 222–227, Sep. 1996.
  35. Madou and J. Joseph, “Immunosensors with Commercial Potential,”ImmunoMethods, vol. 3, no. 2, pp. 134–152, Oct. 1993.
  36. J. Tierney, H.-O. L. Kim, M. Madou, and T. Otagawa, “Microelectrochemical sensor for nitrogen oxides,” Sensors and Actuators B: Chemical, vol. 13, no. 1, pp. 408–411, May 1993.
  37. Madou and M. J. Tierney, “Required technology breakthroughs to assume widely accepted biosensors,” Applied Biochemistry and Biotechnology, vol. 41, no. 1, pp. 109–128, 1993.
  38. Fariborz, J. Joseph, and M. Madou, “Feasibility and Practicality of Monolithic Sensors,” Sensors, pp. 31–35, Sep. 1992.
  39. Oh, J. Joseph, T. Otagawa, and M. Madou, “Multilayer ionic devices fabricated by the plasma-spray method,” Solid State Ionics, vol. 53, pp. 90–94, Jul. 1992.
  40. Madou, T. Otagawa, M. J. Tierney, J. Joseph, and S. Oh, “Multilayer ionic devices fabricated by thin- and thick-film technologies,” Solid State Ionics, vol. 53, pp. 47–57, Jul. 1992.
  41. Oh and M. Madou, “Planar-Type, Gas Diffusion-Controlled Oxygen Sensor Fabricated by the Plasma Spray Method,” Sensors and Actuators B: Chemical, vol. 13–14, pp. 581–582, 1992.
  42. Madou and M. J. Tierney, “Biosensors and Microfabrication,” Applied Biochemistry and Biotechnology, 1992.
  43. Itoh and M. Madou, “Optical waveguides for surface spectroscopy: FePO4 thin‐film/K+‐doped glass composite optical waveguide systems having tapered velocity couplers,”Journal of Applied Physics, vol. 69, no. 11, pp. 7425–7429, Jun. 1991.
  44. Otagawa et al., “Planar microelectrochemical carbon monoxide sensors,” Sensors and Actuators B: Chemical, vol. 1, no. 1, pp. 319–325, Jan. 1990.
  45. Madou and T. Otagawa, “Electrolytic media for chemical sensors,” Solid State Ionics, vol. 28, pp. 1653–1659, Sep. 1988.
  46. Krishnamurthy, A. Sher, M. Madou, and A.-B. Chen, “Semiconductor alloys for fast thermal sensors,” Journal of Applied Physics, vol. 64, no. 3, pp. 1530–1532, Aug. 1988.
  47. Madou, S. R. Morrison, and V. P. Bondarenko, “Introduction of Impurities in Anodically Grown Silica,” J. Electrochem. Soc., vol. 135, no. 1, pp. 229–235, Jan. 1988.
  48. H. Tsau, A. Sher, M. Madou, J. A. Wilson, V. A. Cotton, and C. E. Jones, “State Characterization of the Hg1-xCdxTe/PhotoxTM SiO2 Interface,” Journal of Vacuum Science & Technology A, vol. 4, no. 4, 1988.
  49. Madou, J. J. Smith, and S. Szpak, “Comments on Electroreduction of SOCl2,” J. Electrochem. Soc., vol. 134, no. 11, pp. 2794–2798, Nov. 1987.
  50. H. Tsau, A. Sher, M. Madou, J. A. Wilson, V. A. Cotton, and C. E. Jones, “Low‐frequency admittance measurements on the HgCdTe/Photox SiO2 interface,” Journal of Applied Physics, vol. 59, no. 4, pp. 1238–1244, Feb. 1986.
  51. J. Mercier, F. Fransen, F. Cardon, M. J. Madou, and W. P. Gomes, “Effects of Anodic Polarization Upon Electrochemically Grown Oxide Films on p-Si, Studied by Ellipsometric and Capacitance Measurements,” Berichte der Bunsengesellschaft für physikalische Chemie, vol. 89, no. 2, pp. 117–120, Feb. 1985.
  52. J. Mercier, F. Fransen, F. Cardon, M. J. Madou, and W. P. Gomes, “Effects of Anodic Polarization Upon Electrochemically Grown Oxide Films on p-Si, Studied by Ellipsometric and Capacitance Measurements,” Berichte der Bunsengesellschaft für physikalische Chemie, vol. 89, no. 2, pp. 117–120, Feb. 1985.
  53. J. Madou and S. Szpak, “Investigation of SOCl2 Reduction by Cyclic Voltammetry and AC Impedance Measurements,” J. Electrochem. Soc., vol. 131, no. 11, pp. 2471–2475, Nov. 1984.
  54. Kinoshita and M. J. Madou, “Electrochemical Measurements on Pt, Ir, and Ti Oxides as pH Probes,” J. Electrochem. Soc., vol. 131, no. 5, pp. 1089–1094, May 1984.
  55. Madou, K. Kinoshita, and M. C. H. McKubre, “Electrochemical Measurements on Metal Oxides for pH Probing, Part II,” Electrochimica Acta, vol. 29, no. 3, pp. 419–423, 1984.
  56. J. Madou and M. C. H. McKubre, “Impedance Measurements and Photoeffects on Ni Electrodes,” J. Electrochem. Soc., vol. 130, no. 5, pp. 1056–1061, May 1983.
  57. Madou, K. Kinoshita, and M. C. H. McKubre, “Electrochemical Studies on the Cathodic Reduction of Thionyl Chloride,” Journal of The Electrochemical Society, vol. 130, no. 3, p. 126C, Mar. 1983.
  58. Fransen, M. J. Madou, W. H. Laflere, F. Cardon, and W. P. Gomes, “On the dielectric properties of semiconducting materials as obtained from impedance measurements on Schottky barriers,” J. Phys. D: Appl. Phys., vol. 16, no. 5, p. 879, 1983.
  59. J. Madou, W. P. Gomes, F. Fransen, and F. Cardon, “Anodic Oxidation of p‐Type Silicon in Methanol as Compared to Glycol,” J. Electrochem. Soc., vol. 129, no. 12, pp. 2749–2752, Dec. 1982.
  60. Madou, P. Brondeel, W. P. Gomes, P. Hanselaer, and F. Cardon, “Investigation on photoelectrochemical cells based upon silicon/methanol interfaces. Part 2: p-type Si,” Solar Energy Materials, vol. 7, no. 1, pp. 33–42, Jul. 1982.
  61. Brondeel, M. Madou, W. P. Gomes, and F. Cardon, “Investigation on photoelectrochemical cells based upon silicon/methanol interfaces. Part 1: n-type Si,” Solar Energy Materials, vol. 7, no. 1, pp. 23–32, Jul. 1982.
  62. W. Frese, Jr., M. Madou, and S. R. Morrison, “Investigation of Photoelectro-chemical Corrosion of Semiconductors, III. Effects of Metal Layers on the Stability of GaAs,” Journal of The Electrochemical Society, vol. 128, no. 9, pp. 1939–1943, Sep. 1981.
  63. W. Frese, M. J. Madou, and S. R. Morrison, “Investigation of Photoelectrochemical Corrosion of Semiconductors II . Kinetic Analysis of Corrosion‐Competition Reactions on,” J. Electrochem. Soc., vol. 128, no. 7, pp. 1527–1531, Jul. 1981.
  64. J. Madou, B. H. Loo, K. W. Frese, and S. R. Morrison, “Bulk and surface characterization of the silicon electrode,” Surface Science, vol. 108, no. 1, pp. 135–152, Jun. 1981.
  65. J. Madou, K. W. Frese, and S. R. Morrison, “Photoelectrochemical corrosion as influenced by an oxide layer,” J. Phys. Chem., vol. 84, no. 25, pp. 3423–3428, Dec. 1980.
  66. W. Frese, M. J. Madou, and S. R. Morrison, “Investigation of photoelectrochemical corrosion of semiconductors. 1,” J. Phys. Chem., vol. 84, no. 24, pp. 3172–3178, Nov. 1980.
  67. Roy Morrison, M. J. Madou, and K. W. Frese, “Imperfections in and ion diffusion through oxide layers on silicon,” Applications of Surface Science, vol. 6, no. 2, pp. 138–148, Oct. 1980.
  68. Madou, K. W. Frese, Jr., and S. R. Morrison, “Influence of Surface Damage on Stabilization Against Photodecomposition of n-type GaAs,” Journal of The Electrochemical Society, vol. 127, no. 4, pp. 987–989, Apr. 1980.
  69. J. Madou, K. W. Frese, and S. R. Morrison, “The silicon/silica electrode,” phys. stat. sol. (a), vol. 57, no. 2, pp. 705–712, Feb. 1980.
  70. J. Madou, K. W. Frese, and S. R. Morrison, “Electron Exchange at the Surface of Thermally Grown Silica,” J. Electrochem. Soc., vol. 126, no. 10, pp. 1827–1828, Oct. 1979.
  71. J. Madou, F. Cardon, and W. P. Gomes, “Cyclic-Voltammetric Study of n- and p-Type GaP Electrodes,” Berichte der Bunsengesellschaft für physikalische Chemie, vol. 82, no. 8, pp. 819–823, Aug. 1978.
  72. J. Madou, F. Cardon, and W. P. Gomes, “Anodic Processes at the n- and p-Type GaP Electrodes,” Berichte der Bunsengesellschaft für physikalische Chemie, vol. 81, no. 11, pp. 1186–1190, Nov. 1977.
  73. Madou, W. Gomes, and F. Cardon, “Impedance Measurements at the n- and p-Type GaP Single Crystal Electrode,” Journal of The Electrochemical Society, vol. 124, no. 10, pp. 1623–1627, Oct. 1977.
2016
  1. Perez, V. Ho, M. Vazquez, L. Kulinsky, S. Martínez, “Surface patterning with electrokinetics and electroconductive polymers for additive manufacturing applications”, 11th International Conference on MicroManufacturing, Orange County, CA, USA, 29-31 Mar, 2016. Honorable Mention Award.
  2. B. Pramanick, V. H. Perez-Gonzalez, S. O. Martinez-Chapa, and M. J. Madou, “Pyrolysis Process Optimization for SU8-Derived Carbon Structures”, in 229th ECS Meeting, 2016, San Diego, USA.
  3. Salazar, B. Cárdenas., B. Pramanick, S. Martínez, M. Madou, “Nano-gap Fabrication in Suspended Carbon Nanowires using Joule Heating”, 11th International Conference on MicroManufacturing, Orange County, CA, USA, 29-31 Mar, 2016. Outstanding Paper Award.
  4. Sunny Holmberg, Arnoldo Salazar, Maria Bauer, Marc Madou (2016). Electrostatic Jet Initiation in Electromechanical Spinning (EMS) for the fabrication of sub-micrometer suspended carbon fibers. ICOMM 2016 Conference.
  5. Pramanick, V. Pérez, S. Martínez, M. Madou, “Fabrication of Biocompatible Hollow Microneedles Using the C-MEMS Process for Transdermal Drug Delivery”, accepted to be published in the proceedings of the 229th Electrochemical Society Meeting, San Diego, CA, USA, May 29 – Jun 3, 2016.
  6. Vázquez, B. Cárdenas, B. Pramanick, V. Pérez, M. Madou, S. Martínez, H. Hwang, “Enhanced Reproducibility and Performance of Carbon AC Electroosmotic Micropumps via Joaule Heating-Induced Breakdown of Residual Carbon Films”, submitted to MicroTAS, Dublin, Irland, Oct 9-13, 2016.
  7. Hosseini, I. Djordjevic, L. H. Koole, S. Martínez, “Surface Characterization of Polymethacrylate Biochips with Water-in-Air Contact Angle Analysis”, submitted to the 16th AICHE Annual Meeting, San Francisco, CA, USA, 13-18 Nov, 2016.
  8. Vázquez, L. Kulinsky, V. Pérez, M. Madou, S. Martínez, H. Hwang, “Effect of Interdigitated Electrode Assymetry on Performance of Carbon Based AC Electrosmotic Micropumps”, submitted to the 16th AICHE Annual Meeting, San Francisco, CA, USA, 13-18 Nov, 2016.
  9. Pramanick, L. Berrón, D.M. Kim, W. Lee, Y.B. Shim, S. Martínez, M. Madou, H. Hwang, “Production of hollow carbon microfibers upon pyrolysis of human hair”, submitted to the 16th AICHE Annual Meeting, San Francisco, CA, USA, 13-18 Nov, 2016.
  10. Soroori S, Rodriguez-Delgado JM, Kido H, Dieck-Assad G, Madou M, Kulinsky L. The use of polybutene for    controlling the flow of liquids in centrifugal microfluidic systems. Microfluidics and Nanofluidics. 2016 Jan 1;20(1):26.
2015
  1. M.M. Aeinehvand, F. Ibrahim, M.J. Madou 2015, A New Approach for Reagent Storage-Releasing on Centrifugal Microfluidic Platforms Using Bubblewrap and Latex Membrane: IFMBE Proceedings International Conference for Innovation in Biomedical Engineering and Life Sciences (ICIBEL), Putrajaya, Malaysia, 6-8 December 2015, pp. 269-271 (ISI-Cited Publication) (ISI-Cited Publication)
  2.  W. Al-Faqheri, F. Ibrahim, T. Hwai Gilbert Thio, K. Joseph, M. S. Mohktar, and M. Madou, “Liquid density effect on burst frequency in centrifugal microfluidic platforms,” 37th Annual International Conference of the IEEE in Engineering in Medicine and Biology Society (EMBC), Milan, 2015, pp. 3221-3224. (ISI-Cited Publication) (ISI/SCOPUS Cited Publication)
  3. V. Perez, V. Ho, M. Vazquez, S. Martínez, L. Kulinsky, “An Electrokinetically-Driven Microfabrication Process for Additive Manufacturing Applications”, 10th International Conference on MicroManufacturing, Milan, Italy, 31 Mar – 02 Apr 2015.
2014
  1. T.H.G. Thio, F. Ibrahim, W. Al- Faqheri, N. Soin, M.K.B. Abdul Kahar, M. Madou. Sequential biosensor chamber evacuation using thermo- pneumatic (TP) pull pumping onthe microfluidic CD platform. 2014. P3.099 (ISI/SCOPUS Cited Publication)
  2.  M.M. Aeinehvand, F. Ibrahim, S.W. Harun, I. Djordjevic, M.J. Madou, S. Hosseini, H.A.Rothan, R. Yusof. Micro-balloon micro-mixing in centrifugal microfluidic platforms. 2014. P1.198 (ISI/SCOPUS Cited Publication)
  3.  J. Karunan, F. Ibrahim, J. Cho,, M. Madou, W. Al- Faqheri, T.H.G. Thio. 2014. Self-generation power system for biomedical applications on Lab-on-a- Disc. Biosensors 2014 Congress P1.194 (ISI/SCOPUS Cited Publication)
  4.  S. Givechi, F. Ibrahim, M.M. Aeinehvand, M. Madou, A. Kazemzadeh*, M.Y.B. Ahmad, J.Cho. Control of magnetic particles in centrifugal microfluidic platforms. 2014. P2.203
  5. V. Perez, V. Ho, L. Kulinsky, S. Martínez, “Dielectrophoresis-assisted electroconductive polymer-based fabrication of high surface area electrodes”, SPIE Smart Structures and Materials + Nondestructive Evaluation and Health Monitoring, San Diego, USA, 9 – 13 Mar 2014.
  6. M. Vazquez, V. Perez, S. Camacho, R. Gallo, M. Madou, S. Martínez, “Qualitative Study of AC Electroosmotic Micropumps By Computational Modeling of Non-Equilibrium Electrokinetics”, 14th AICHE Annual Meeting, Atlanta, GA, USA, 16-21 Nov, 2014
  7. Soroori S, Kulinsky L, Kido H, Madou M. Design and implementation of fluidic micro-pulleys for flow control on centrifugal microfluidic platforms. Microfluidics and nanofluidics. 2014 Jun 1;16(6):1117-29.
2013
  1. Al-Faqheri W, Ibrahim F, Thio T H G, Arof H, Madou M “Novel Liquid Equilibrium Valving on Centrifugal Microfluidic CD Platform”. IEEE EMBC 2013, Osaka Japan. (ISI-Cited Publication)
  2.  Thio T H G, Ibrahim F, Al-Faqheri W, Soin N, Abdul Kahar M K B, Madou M. 2013 “Multi-Level 3D Implementation of Thermo- Pneumatic Pumping on Centrifugal Microfluidic CD Platforms “. IEEE EMBC, 3 July, 2013 Osaka Japan. (ISI-Cited Publication)
  3.  Canton, G., Kulinsky, L., Madou, M.J., “Electro-Mechanical Spinning:A new manufacturing technique for micro/nano-fabrication of carbon fibers”, (2013) Proceedings – International Symposium on Advanced Packaging Materials, art. no. 6510407, pp. 230-239.
  4.  V. Ho, V. Perez, L. Kulinsky, S. Martínez, M. Madou “Electropolymerization Based Micromanufacturing of Three-Dimensional High Surface Area Electrodes”, 8th International Conference on MicroManufacturing, Victoria, Canada, 25 –28 Mar 2013.
  5. Thio TH, Soroori S, Ibrahim F, Al-Faqheri W, Soin N, Kulinsky L, Madou M. Theoretical development and critical analysis of burst frequency equations for passive valves on centrifugal microfluidic platforms. Medical & biological engineering & computing. 2013 May 1;51(5):525-35.
2012
  1. Mohammad Mahdi Aeinehvand, Jacob Moebius, Sulaiman Wadi Harun, Noorsaadah Abd Rahman, Marc Madou, Fatimah Ibrahim. The Effects of Placement and Geometry on Thermo-Pneumatic Pumping on Centrifugal Microfluidic Compact Disc (CD) Platforms. IEEE Proceedings, EMBS International Conference on Biomedical Engineering and Sciences 2012.
  2. V. Pérez, V. Ho, L. Kulinsky, B. Lapizco, M. Madou, S. Martinez, “C-MEMS Based Electrodes for the Dielectric Characterization of Microparticles Employing Dielectrophoresis”, 12th AICHE Annual Meeting, Pittsburgh, PA, USA, 28 Oct -2 Nov, 2012.
  3.  V. Pérez, V. Ho, L. Kulinsky, B. Lapizco, S. Martinez, M. Madou, “3D Carbon Cages for Dielectrophoretic-based Bioparticle Separation/Concentration Applications”, 12th AICHE Annual Meeting, Pittsburgh, PA, USA, 28 Oct -2 Nov, 2012.
  4.  J.-I Heo, Y. Lim, M. Madou, H. Shin, “Scalable Suspended Carbon Nanowire Meshes as Ultrasensitive Electrochemical Sensing Platforms”, IEEE MEMS2012, Paris, France, January 29 – February 2 (2012).
  5.  J.-I. Heo, Y. Lim, M. Madou, H. Shin, “Development of a carbon microchannel integrated with a norizontal carbon sandwich electrode pair for ultra sensitive electrochemical/bio sensors,” the 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2012), Okinawa, Japan, October 28-November 1 (2012).
  6. Gorkin R, Soroori S, Southard W, Clime L, Veres T, Kido H, Kulinsky L, Madou M. Suction-enhanced siphon valves for centrifugal microfluidic platforms. Microfluidics and nanofluidics. 2012 Jan 1;12(1-4):345-54.
2011
  1. Tzer-Hwai-Gilbert Thio, Ali A. Nozari, Norhayati Soin, Maria Kahar Bador Abdul Kahar, Siti Zawiah Md Dawal, Kameel Abi Samra, Marc Madou, and Fatimah Ibrahim, 2011. Hybrid Capillary-Flap Valve for Vapor Control in Point-of-Care Microfluidic CD, 5th Kuala Lumpur International Conference on Biomedical engineering, 20- 23 June 2011 (ISI-Cited Publication)
  2.  J.-I. Heo, M. Madou, H. Shin, “Scalable monolithic suspended carbon nanowire array systems as ultrasensitive electrochemical sensing platforms,” the 15th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2011), Seattle, USA, October 2-6 (2011).
  3. J.-I. Heo, M. J. Madou, H. Shin, “Development of highly sensitive gas sensor platform using suspended carbon nanowire array,” the 13th Korean MEMS Conferences, Jeju, Korea, April 7-9 (2011).
  4.  Y. Lim, J.-l Heo, M. Madou, H. Shin,” Monolithic 3D carbon suspended nanowires for the application of electrochemical sensing platforms”, 5th International Conference on Sensors (ASIASENSE 2011), Jeju island, Korea, October 23-26(2011).
  5.  Y. Lim, J.-l Heo, M. Madou, H. Shin, “Development of electrochemical biosensors based on high aspect ratio suspended carbon nanowire meshes”, Fall Meeting of the Korean BioChip Socieity, Ulsan, Korea, November 3-4 (2011).
  6.  J. Gomez-Qunones, H. Moncada-Hernandez, O. Rossetto, R. Martinez-Duarte, B.H. Lapizco-Encinas, M. Madou, and S. O. Martinez-Chapa. An Application Specific Multi-Channel Stimulator for Electrokinetically-Driven Microfluidic Devices. New Circuits and Systems Conference (NEWCAS), IEEE 9th International, 2011, Bordeaux, France
  7.  K. Abi-Samra and M. Madou. Pumping fluids radially inward on centrifugal microfluidic platforms via thermally-actuated mechanisms. Proceedings of Micro-Total analysis systems, 2011, Seattle, USA.
  8.  T.H. Kim, V. Sunkara, K. Abi-Samra, M. Amasia, S. Oh, N. Kim, J. Kim, H. Kim, M. Madou and Y-K. Cho, Fully Integrated Centrifugal Microfluidic Platform for Electrochemical Biomarker Detection. Proceedings of Micro-Total analysis systems, 2011, Seattle, USA.
    C172. M. Amasia, M. Cozzens, and M. Madou, Vapor-tight Ice Valving in Centrifugal Microfluidics for PCR Applications. Proceedings of Micro-Total analysis systems, 2011, Seattle, USA.
  9.  G. Bisht, G. Canton, A. Mirsepassi, D. Dunn-Rankin, L. Kulinsky and M. Madou, “Novel Polymeric Inks for Precision Patterning of Carbon Micro/Nano-Fibers Using Near-Field Electrospinning”, Proceedings of Technologies for Future Micro-Nano Manufacturing, Napa, CA, Aug 8-10 2011.
  10.  V. Ho, L. Kulinsky, M. Madou, “Novel Fabrication Process of 3D Conductive Polymer Structures” Technologies for Future Micro and Nano Manufacturing Conference, Napa, CA (2011).
  11.  H. Moncada-Hernandez, V. H. Perez-Gonzalez, R. Martinez-Duarte, S. O. Martinez-Chapa, M. J. Madou, and B. H. Lapizco-Encinas, Dielectrophoretic Assessment of Microparticle Dielectric Properties Employing a Planar Carbon Electrode Platform., AIChE 2011 Annual Meeting, Minneapolis, MN.
2010
  1. J.-I. Heo, D.-K. Park, R. M. Duarte, M. J. Madou, H. Shin, “Characterization of 3-D Carbon Interdigitated Array Microelectrodes”, the 12th Korean MEMS Conferences, Pusan, Korea, April 1-3 (2010).
  2.  H. Shin, D.-S. Shim, J.-I. Heo, H.-R. Park, J.-R. Kim, Y.-H. Ryu, M. Madou, “Development of Metal Interdigitated Array Nanoelectrodes of High Aspect Ratio for Higlhy Sensitive Electrochemical Sensor,” the KSME 2010 Fall Annual Meeting, Jeju, Korea, November 3-5 (2010).
  3.  J.-I. Heo, D. –S. Shin, R. Martinez Duarte, M. Madou, H. Shin, “3-D Carbon Interdigitated Array Nanoelectrodes for Highly Sensitve Sensing of Neurotransmitters,” ectrodes”, the 14th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2010), Netherlands, October 3-7 (2010).
  4. H. Moncada, V. Pérez, R. Martínez, S. Martínez, M. Madou, B. Lapizco, “Dielectrophoretic Characterization of Microorganisms Employing Three Dimensional Carbon Electrodes”, 10th AICHE Annual Meeting, Salt Lake City, USA, 7-12 Nov 2010.
  5.  Z. Noroozi, H. Kido, R. Peytavi, R. Sasaki, A. Jasinskas, P. Felgner, and M. J. Madou. Centrifugal Fluidic System for Enhanced Mixing and Reducing Incubation Times During Protein Microarray Processing. Proceedings of Micro-Total analysis systems, 2010, Groningen, The Netherlands.
  6.  M. Amasia, J.Siegrist and M. Madou, Large-volume Centrifugal Microfluidic device for Whole Blood Sample Preparation, MicroTAS, October 5, 2010, Groningen, Netherlands
  7. E. Roy, M. Mounier, R. Peytavi, J. Seigrist, R. Gorkin, M. Madou, M. G. Bergeron, T. Veres, Enhanced Microfabrication Capabilities of Thermoplastics Elastomers for CD LAB System including: Lysing, PCR, and Hybridization Microfluidic Functions, MicroTAS 2010 Groningen, Netherlands, Paper ID No. 1003.
  8. Robert A. Gorkin III, Kameel Abi-Samra, Frances Begin, Michel Bergeron, Horacio Kido, and Marc Madou, Non-Contact Heat Management for DNA Hybridization in Sample-to-Answer Centrifugal Microfluidics, MicroTAS 2010 Groningen, Netherlands, Paper ID No. 0567
  9.  D. Tobler, J. Siegrist, T. Kazarian, M. Madou, P. Wang, and S. Daunert, 2010, A Novel Genetically Engineered Biosensor for Real-Time In vivo Glucose Sensing, Proceedings of American Diabetes Association’s 70th Scientific Sessions 2010, Orlando, FL.
  10.  Ho, X. Solvas, D. Scott, L. Dolci, L. Kulinsky, S. Daunert, M. Madou, 2010, “Utilization of Electroactive Polymer Actuators in Micromixing and in Extended-Life Biosensor Applications” Proc. SPIE 7647, 764735
  11.  V. Ho, M. Shimada, D. Szeto, P. Mukherjee, Q. Kang, L. Kulinsky, M. Madou, 2010, “Novel Fabrication Technology for Three-Dimensional High Surface Area Pyrolyzed Structures” Proc. SPIE 7647, 76472F
  12.  F. Ibrahim, A.A. Nozari, P. Jahanshahi, N Soin, N.A. Rahman, S.Z.M. Dawal, M.K.B.A. Kahar, K.A. Samra, M. Madou. “Analysis and experiment of centrifugal force for microfluidic ELISA CD platform,” Biomedical Engineering and Sciences (IECBES), 2010 IEEE EMBS Conference. Nov. 30 2010-Dec. 2 2010. doi: 10.1109/IECBES.2010.5742282
  13.  M. Amasia and M. Madou, Large-Volume Centrifugal Microfluidic Device for Whole Blood NA Analysis Sample Preparation, Sample Prep, May 6, 2010, MD, USA.
  14. R. Martinez-Duarte, M. J. Madou, Automated Label-free Cell Sorting using dielectrophoresis and centrifugal microfluidics, 42nd AACC Oak Ridge Conference – The impact of emerging diagnostic technologies: San Jose, CA, April 22, 2010.
2009
  1. J. Siegrist and R. Gorkin, M. Bastien, G. Stewart, R. Peytavi, H. Kido, M. Bergeron, and M. Madou, 2009, Centrifugal Microfluidic Sample Lysis and Homogenization Platform for Nucleic Acid Extraction, Proc. in MicroTAS, Jeju, S. Korea
  2.  R. Martinez-Duarte, R. Gorkin, K. Abi-Samra, M. Madou, The Integration of Dielectrophoresis on a CD-like Microfluidics Platform, Proceedings of 2009 Annual Meeting of the AICHe/American Electrophoresis Society: Nashville, TN, November 8-13, 2009.
  3.  R. Martinez-Duarte, M. Madou, A Novel Approach to Dielectrophoresis using Carbon Electrodes, Proceedings of the 2009 Annual Meeting of the AICHe/American Electrophoresis Society: Nashville, TN November 8-13, 2009.
  4. R. Martinez-Duarte, R. Gorkin, K. Abi-Samra and M. J. Madou, The Integration of 3D carbon Dielectrophoresis on a rotating platform, Proceedings of the 15th International Conference on Solid-State Sensors, Actuators & Microsystems, Transducers 2009: Denver, CO, June 21-25, 2009, 2147-2150 (2009).
  5.  R. Martinez-Duarte, M. J. Madou, G. Kumar and J. Schroers, A novel method for Amorphous Metal Micromolding using Carbon MEMS” Proceedings of the 15th International Conference on Solid-State Sensors, Actuators & Microsystems, Transducers 2009: Denver, CO, June 21-25, 2009, 188-191, 2009.
2008
  1. R. Martínez, J. Andrade, E. Collado, S. Martínez, M. Madou, “A high throughput multi-stage, multi-frequency filter and separation device based on carbon dielectrophoresis”, 11th Annual Nanotechnology Conference and Trade Show: Nanotech 2008, Boston, USA, vol. 3, pp. 316-319, 1-5 Jun, 2008
  2. Rouabah, H. A., Park, B. Y., Zaouk, R. B., Madou, M. J. and Green, N. G. (2008) Producing fluid flow using 3D carbon electrodes. Journal of Physics: Conference Series .012072 (4 pp.).
  3. R. Martinez-Duarte, J. Andrade-Roman, S. O. Martinez and M. Madou, “A High Throughput Multi-stage, Multi-frequency Filter and Separation Device based on Carbon Dielectrophoresis” Proceedings of the NSTI-Nanotech 2008: Boston, MA, June 1-5, Vol. 3, 316-319 (2008).
  4. R. Martinez-Duarte, S. Cito, E. Collado-Arredondo, S. O. Martinez and M. Madou, “Fluido-dynamic and Electromagnetic Characterization of 3D Carbon Dielectrophoresis with Finite Element Analysis” Proceedings of the NSTI-Nanotech 2008: Boston, MA, June 1-5, Vol. 3, 265-268 (2008).
  5. J. Siegrist, M. Amasia, H. Kido, J. Zoval, and M. Madou, 2008, Microfluidic CD-Based Systems Toward Rapid Anthrax Detection in Whole Blood, Irvine, Ca, Proceedings of Frontiers in Biomedical Devices 2008
2007
  1.  J. Siegrist, G. Jia, H. Kido, J. Zoval, G. Stewart, D. Gagné, R. Peytavi, A. Huletsky, M. Bergeron,
and M. Madou, 2007, Centrifugal (CD) Microfluidic Platforms for Nucleic Acid Analysis, Springfiled, MA, Proceedings of Society for Experimental Mechanics 2007.
  2.  R. Martinez-Duarte, H. A. Rouabah, N. G. Green, M. Madou and H. Morgan, “Higher Efficiency and Throughput in Particle Separation with 3D Dielectrophoresis with C-MEMS”. Proceedings of the Eleventh International Conference in Miniaturized Systems for Chemistry and Life Sciences, microTAS 2007: Paris, France, October 7-11, Vol. 1, 826-828 (2007).
  3.  Rouabah, H., Park, P. Y., Zaouk, R. B., Morgan, H., Madou, M. J. and Green, N. (2007) Fabrication of fully functional AC-electroosmosis micropump with 3D high aspect ratio electrodes using only SU-8. In: Proc. Micromechanics Europe, September 2007, Guimaraes, Portugal.
  4.  Z. Zhao, Gerardo A. Diaz-Quijada, R. Peytavi, E. LeBlanc, J. Frenette, G. Boivin, J.V. Zoval, M. Madou, M.M. Dumoulin, T. Veres, and M. G. Bergeron, “Detection of Respiratory Viruses with Plastic High Throughput Screening Devices,” Mater. Res. Soc. Symp. Proc. Vol. 950, 2007.
2006
  1. Marc Madou, Chunlei Wang, Francesc Galobardes, “Investigation on the Solid Electrolyte Interface Formed on Anodes for Li-ion Batteries Fabricated by Carbon-Microelectromechanical Systems Technology,” Proc. of 2006 NSF Design, Service, and Manufacturing Grantees and Research Conference.
  2.  Han Xu, Chunlei Wang, Lawrence Kulinsky, Jim Zoval, Marc Madou, “Sensor – Integrated Polymer Actuators for Closed-loop Drug Delivery System,” SPIE Smart Structures/NDE, 26 February – 2 March 2006, San Diego, CA.
  3.  Kim, N., Dempsey, C. M., Zoval, J. V., Sze, J., Madou, M. J. (2006). Compact disc (CD) –Based Automated Animal Assay. Nanotech 2006, Boston, MA.
  4.  K. Malladi, C. Wang, M.J. Madou, W. Xue and T. Cui, “Microfabrication and Mechanical Characterization of Suspended Carbon Microstructures,” Nanotech 2006, May 7-11, Boston, MA.
  5.  C. Wang, H. Xu, K. Malladi and M.J. Madou, “Carbon Microstructures for Glucose Biosensor,” Nanotech 2006, May 7-11, Boston, MA.
    C127. G. Turon Teixidor, C. Wang and M.J. Madou, “Fabrication of 3D Carbon Microelectrodes for Li-Ion Battery Applications,” Nanotech 2006, May 7-11, Boston, MA.
  6.  Chunlei Wang and Marc J. Madou, “DMI 0428958 Sensors: C-MEMS Based Microbattery Arrays for Miniature Sensors,” (PI), 2006 NSF Design, Service, and Manufacturing Grantees and Research Conference, July 24-27, 2006, St. Louis, Missouri.
  7.  Chunlei Wang, Rabih Zaouk, Benjamin Park, Kartikeya Malladi, Francesc Galobardes Jornet, Genis Turon Teixidor, and Marc Madou, “Carbon-MEMS/NEMS and its application in energy miniaturization and biosensing (B5.3),” ICNDST & ADC 2006 Joint Conference, May 15 – 18, 2006, Research Triangle Park, North Carolina.
  8. Benjamin Y. Park, Rabih Zaouk, Chunlei Wang, Jim Zoval, Marc J. Madou, “Fractal Carbon-MEMS Electrodes: Theory and Preliminary Fabrication,” Proc. of 2006 SBMicro Conference, Aug. 28, 2006, Ouro Preto-MG-Brazil.
  9. R. Martinez-Duarte, Castellarnau, M., Rodriguez, R., Perez, R., Gomila, G., Samitier, J., and Madou M., “Carbon MEMS (C-MEMS) for Dielectrophoresis Applications”. Proceedings of the California Catalonia Alliance for Miniaturization Science and Engineering Workshop. 32nd International Conference on Micro and Nano-Engineering MNE 2006: Barcelona, Spain. September 17-20, Vol. 1, 1 (2006).
  10.  G. Turon Teixidor, C. Wang and M.J. Madou, Nanotech 2006, May 7-11, Boston, MA Sensor – Integrated Polymer Actuators for Closed-loop Drug Delivery System.
  11. Han Xu, Chunlei Wang, Lawrence Kulinsky, Jim Zoval, Marc Madou, Proc. SPIE Vol. 6172, 61720R, Smart Structures and Materials 2006: Smart Electronics, MEMS, BioMEMS, and Nanotechnology; Vijay K. Varadan; Ed. 2006.
  12. Benjamin Y. Park and Marc J. Madou, “Miniature PEM Fuel Cell with Pyrolyzed Carbon Microfluidic Plates,” PowerMEMS 2006, Berkeley, CA.
  13. R.A. Lambert, S. Chakraborty, M.J. Madou R.H. Rangel, “Moving Flap Model for Fast DNA Hybridization in Microchannel Flow”, 32nd International Conference on Micro- and Nano-Engineering MNE 2006 special sessions, September 2006.
  14.  Benjamin Y. Park, Alan Paradiso, Matt Kawabe, and Marc J. Madou, “Novel Dielectrophoretic Filtration Methods and Designs”, Novel Materials and Integration Techniques II, SPIE 13th Annual Symposium, Smart Structures and Materials 2006.
2005 and before
  1. Growth of Si Nanowires on Nano Catalyst CornersC. Wang, K. Malladi and M. Madou, Proc: Nanotech 2005, May 8-12, 2005, Anaheim, CA
  2.  Fabrication of Suspended C-NEMS Structures by EB Writer and Pyrolysis Method, K. Malladi, C. Wang and M. Madou, Proc: Nanotech 2005, May 8-12, 2005, Anaheim, CA
  3.  Fabrication of Suspended C-NEMS Structures by EB Writer and Pyrolysis Method, K. Malladi, C. Wang, and M. Madou, Proc: SCSMM, April 1, 2005, Irvine, CA
  4.  Growth of Si Nanowires on Nano Catalyst Corners, C. Wang, K. Malladi, and M. Madou, Proc: SCSMM, April 1, 2005, Irvine, CA
  5.  Fabrication of Nanometer-Sized Structures by C-NEMS Technology, K-S Ma, G-Y Jia, Q. Xu, H. Zhou, C-L Wang, J. Zoval and M. Madou, Pro: Nanotech 2005, May 8-12, 2005, Anaheim, CA
  6.  H. Zhou, K. Ma, J. Zoval and M. Madou, Electrical Detection of DNA Hybridization using Adjacent Impedance Probing (AIP) Method. NanoTech 2005, Anaheim, 8-12 May, 2005.
  7.  C. Wang, R. Zaouk, B. Park, G. T. Teixidor, F. G. Jornet, M. Madou, “Recent Developments in C-MEMS Technologies for Li Ion Microbatteries,” Nanotech-Montreux 2005, Nov 15-17, 2005, The Montreux-Palace Hotel, Switzerland.
  8. C.Wang, K.Malladi, M.Madou, “Growth of Si Nanowires on Nano Catalyst Corners,” Pacifichem 2005, Dec 19, 2005, Honolulu, Hawaii.
  9. C. Wang, L. Taherabadi, K. Malladi and M. Madou, “C, Ni and Si Nanowires Formation by Local CVD and SLS Mechanisms,” Nanotech 2005, May 8-12, 2005, Anaheim, CA.
    C115. C. Wang, R. Zaouk, L. Taherabadi, M. Madou, V. Kayastha and Y. Yap, “Integration of Carbon Nanotubes and Carbon Nanofibers to C-MEMS,” Nanotech 2005, May 8-12, 2005, Anaheim, CA.
  10. V.K. Kayastha and Y.K. Yap, C. Wang, R. Zaouk, L. Taherabadi, and M. Madou, “Controlled Growth of Carbon Nanotubes for 3-D Lithium-Ion Microbatteries,” Applied Diamond Conference Nanocarbon 2005, Argonne National Laboratory, May 15-19, 2005.
  11. K. Ma, H. Zhou, J. Zoval and M. Madou, Adjacent Impedance Probing on Genosensor. 208th Meeting of The Electrochemical Society, Los Angels, CA, 16-21 October, 2005.
  12.  L. G. Bachas, E. A. Moschou, H.-K. Tsai, J. Zoval, M. J. Madou, and S. Daunert, “Polymeric Microactuators for Responsive Drug Delivery Systems”, National Meeting of the American Institute for Chemical Engineers, November 1, 2005, Cincinnati, OH.
  13.  G. Jia, K. Ma, K. Kim, J. V. Zoval, M. J. Madou, S. K. Deo, S. Daunert, R. Peytavi, and M. G. Bergeron, “CD (compact disc)-Based DNA Hybridization and Detection” SPIE 5455, 341-352, 2005.
  14. K. Ma, H. Zhou, J. Zoval and M. Madou, New Approach in Electrochemical DNA Hybridization Detection with Adjacent Impedance Probing, AVS 52nd International Symposium, Boston, MA, Oct 30-Nov 4, 2005.
  15.  H. Zhou, K. Ma, G. Jia, J. Zoval and M. Madou, Advanced Lithography for Biomedical Application, Lab Automation 2005, Jan. 30- Feb. 3, 2005, San Jose, California.
  16. L. Taherabadi, M. Madou, V. Kayastha, and Y. K. Yap, in 2004 MRS Fall Meetings, Boston, MA, Nov 29-Dec 3, 2004, Paper #: K9.4.
  17.  C-MEMS/NEMS: A Novel Technology for Nanoscale Material Formation from Graphite Fiber to Ni and Si Nanowires, Chunlei Wang, Rabih Zaouk, Kartikeya Malladi, Lili Taherabadi, Marc Madou, 3rd ASME Integrated Nanosystems conference 2004, Sep.22-24, Pasadena, CA
  18. Polypyrrole actuators as valves for controlled drug delivery, Chong Wang, Han Xu, Chunlei Wang, Jim Zoval, and Marc Madou, In: Proc. SPIE Volume 5455 — MEMS, MOEMS, and Micromachining, pp. 109-115, SPIE Europe International Symposium-Photonics Europe, 26 – 30 April 2004, Strasbourg, France, Hakan Urey, Ayman El-Fatatry, Editors, August 2004
  19. Carbon-MEMS architectures for 3D microbatteries, Chunlei Wang, Lili Taherabadi, Guangyao Jia, Sam Kassegne, Jim Zoval and Marc Madou, In: Proc. SPIE Volume 5455 — MEMS, MOEMS, and Micromachining, pp. 295-302, SPIE Europe International Symposium-Photonics Europe, 26 – 30 April 2004, Strasbourg, France
  20. Polypyrrole Actuators as Valves for Controlled Drug Delivery, Chong Wang, Han Xu, Chunlei Wang, Jim Zoval, Marc Madou. SPIE 11 th Annual International Symposium, Smart Structures and Materials, San Diego, CA, USA, 14-18 March
  21. A Novel Method for the Fabrication of High Aspect Ratio C-MEMS Structures,Chunlei Wang, Lili Taherabadi, Guangyao Jia, and Marc Madou, Southern California Society for Microscopy & Microanalysis (SCSMM) symposium, March 30 2004, Irvine
  22. Chunlei Wang and Marc Madou, “Carbon-MEMS for 3-D Microbatteries,” AAAS annual meeting, Feb.13, 2004, Seattle.
  23. K. Ma, H. Zhou, M. Madou, Detection of DNA Hybridization with Impedance Amplifying Labels, NanoTech 2004, Boston, 7-11 March, 2004
  24.  K. Ma, H. Zhou, M. Madou, Electrical Biosensor for Label-free DNA Hybridization Detection, 205th Electrochemical Society Meeting, San Antonio, 9-14 May, 2004.
  25.  Benjamin Y. Park, Rabih Zaouk, Marc Madou, “Validation of Lithography Based on the Controlled Movement of Light-emitting Particles,” SPIE Microlithography, Emerging Lithographic Technologies VIII, 2004.
  26.  H. Zhou, K. Ma, G. Jia, J. Zoval and M. Madou, Micro contact printing of DNA molecules, ASME Integrated nanosystems: Design, synthesis and applications, Sep. 22-24, 2004, Pasadena, California.
  27.  J. D. Ehrick, E. A. Moschou, S. K. Deo, M. J. Madou, L. G. Bachas, and S. Daunert, “Development of Therapeutic Systems: Responsive Drug Delivery and High-Throughput Screening Devices,” International NanoMaterials Workshop, September 20, 2004, Lexington, KY.
  28. Chunlei Wang, Lili Taherabadi, Chong Wang, Han Xu, Rabih Zaouk, Marc Madou, Yuting Yeh and Bruce Dunn, “C-MEMS Technology for Li Ion Microbatteries,” ECS206th, Oct.3-8, 2004, Honolulu, Hawaii.
  29. Chunlei Wang, Rabih Zaouk, Kartikeya Malladi, Lili Taherabadi, Marc Madou, “C, Ni, and Si Nanoscale Material Formation by C-MEMS/NEMS Technology,” ECS206th, Oct.3-8, 2004, Honolulu, Hawaii.
  30. Chunlei Wang, Rabih Zaouk, Lili Taherabadi, and Marc Madou, Vijaya Kayastha and Yoke Khin Yap, “C-MEMS/CNTs Electrode Arrays for 3D Microbatteries,” ECS206th, Oct.3-8, 2004, Honolulu, Hawaii.
  31.  C. Wang, R. Zaouk, L. Taherabadi, M. Madou, V. Kayastha, and Y. K. Yap, “3D Microbatteries with C-MEMS/CNFs and C-MEMS/CNTs Electrode Arrays,” in 2004 MRS Fall Meetings, Boston, MA, Nov 29-Dec 3, 2004, Paper #: K9.4
  32. Chunlei Wang, Rabih Zaouk, Kartikeya Malladi, Lili Taherabadi, and Marc Madou, C-MEMS/NEMS: A Novel Technology for Graphite, Ni, and Si Nanoscale Material Formation,” AVS 51th International Symposium&Exhibition, Nov.14-19, 2004, Anaheim, CA.
  33. S. Daunert, E. A. Moschou, J. D. Ehrick, S. F. Peteu, S. K. Deo, J. C. Ball, L. G. Bachas, M. J. Madou, “ChipRx: Responsive Drug Delivery Systems”, First Annual Kentucky Innovation and Enterprise Conference, March 5, 2003, Lexington, KY.
  34. “Challenges in Computational Modeling of Permeation Layers in Bio-MEMS Devices,” by K Sarkar, Sam Kassegne, Marc Madou, Dalibor Hodko, Ken Greiner, and Sandipan Maiti, Proceedings of the SIAM Conference on Computational Science and Engineering (SIAM CSE03), February 10-13, 2003, San Diego, CA.
  35.  L. G. Puckett, E. Dikici, J. Zoval, M. J. Madou, L. G. Bachas and S. Daunert, “Design and Development of Centrifugal Microfluidics Platform for Protein-Based Assays”, 225th ACS National Meeting, March 23, 2003, New Orleans, LA.
  36.  J. D. Ehrick, E. A. Moschou, S. K. Deo, J. Zoval, M. J. Madou, L. G. Bachas, S. Daunert, “Microactuators for Responsive Drug Delivery Systems”, Kentucky Nanomaterials Workshop (KyNanoMat 2003), September 25, 2003, Louisville, KY
  37. Chunlei Wang, Lili Taherabadi, Marc Madou, “Carbon-MEMS Architectures for 3-D Microbattery,” the Electrochemical Society, Orlando Florida, October 14, 2003.
  38. Chong Wang, Han Xu, Chunlei Wang, Jim Zoval, Marc Madou, “Artificial Muscle Valves for Responsive Drug Delivery Systems,” UCI, Miniaturization in Biomedicine workshop, October 20, 2003.
  39. C.L.Wang, L. Taherabadi, G.Y.Jia M. Madou, “Carbon-MEMS Architectures for 3-D Microbatteries,” UCI, Miniaturization in Biomedicine workshop, October 20, 2003.
  40.  J. Feliciano, A. Rothert, S. K. Deo, L. Puckett, L. Millner, J. R. Van der Meer, M. J. Madou, S. Daunert, “Bacterial Biosensing Systems for Arsenic Detection: From the Laboratory to the Field”, Superfund Basic Research Program Annual Meeting 2003, November 10, 2003, Hanover, NH.
  41.  Carbon-MEMS architectures for 3-D microbatteries, C.L.Wang, L.Taherabadi, G.Y.Jia and M.Madou, In: Proc. NanoTech 2003, the 7th annual European conference on micro&Nanoscale technologies for the biosciences, Nov.25-27, 2003
  42.  Artificial muscle valves for responsive drug delivery systems, Chong Wang, Han Xu, Chunlei Wang, Jim Zoval, and Marc Madou, In: Proc. NanoTech 2003, the 7th annual European conference on micro&Nanoscale technologies for the biosciences, Nov.25-27, 2003
  43. A. Rothert, S. K. Deo, L. G. Puckett, L. Millner, M. Madou, and S. Daunert, “Adaptation of a Whole-Cell Based Reporter Gene Assay for Arsenite and Antimonite to a Compact Disc Centrifugal Microfluidics Platform”, SERMACS: Atlanta, GA; Nov. 16, 2003.
  44.  J. D. Ehrick, C. Wang, H. Xu, E. A. Moschou, S. K. Deo, M. J. Madou, L. G. Bachas, S. Daunert, “Responsive Drug Delivery Systems: ChipRx”, 7th Annual European Conference on Micro Nanoscale Technologies for the Biosciences, (NanoTech 2003), November 25-27, 2003, Montreux, Switzerland.
  45.  K. Ma, H. Zhou, M. Madou, Low-cost Electrical Detection of DNA Hybridization, The 7th Annual European Conference on Micro & Nanoscale Technologies for the Biosciences, Switzerland, November 23-24, 2003.
  46.  Lai, S., Y. Hudiono, L. J. Lee, S. Daunert, and M. J. Madou, 2002. Resin-Gas Technique for Bonding and Surface Modification of Polymer-Based Microfluidic Platforms, submitted to ANTEC SPE 2002, San Francisco, CA, May.
  47.  Kassegne, S., K. Sarkar, and M. J. Madou, 2002. Characterization of Porous Membrane Elements in Microfluidic Devices, submitted to the 14th US National Congress of Theoretical and Applied Mechanics Conference, Blacksburg, VA, June 23-28.
  48.  S. Kassegne, M. Madou, R. Whitten, J. Zoval, E. Mather, K. Sarkar, D. Hodko and S. Maity, “Design Issues in SOI Based High-Sensitivity Piezoresistive Cantilever Devices”, SPIE, IX Annual International Conference, March 17-21, 2002, San Diego, CA.
  49.  S. Kassegne, H. Reese, P. Swanson, J.M. Yang, D. Smolko, D.Hodko D. Raymond and M. Madou, “A Micro Electro-Optical DNA Array Sensor”, SPIE, IX Annual International Conference, March 17-21, 2002, San Diego, CA.
  50.  M.J. Madou and C.Gurtner.Bio-MEMS-The Impact of MEMS on Biotechnology in the 21st Century. DRC-60th Device Research Conference, UCB-Santa Barbara, CA, The Impact of MEMS on Biotechnology in the 21st Century, June 24, 2002.
  51.  Daunert, S., E. A. Moschou, J. D. Ehrick, S. F. Peteu, S.K.Deo, J. C. Ball, L. G. Bachas, and M. J. Madou, 2002. Electro- and Bio-Chemical Microactuators for Response Drug Delivery, 224th ACS National Meeting, Boston, MA, August 19.
  52.  E. A. Moschou, J. D. Ehrick, S. F. Peteu, S. K. Deo, J. C. Ball, L. G. Bachas, J. Zoval, M. J. Madou, S. Daunert “Microfabricated Responsive Drug Delivery system,” Nanotech 2002, 6th Annual European conference on Micro and Nanoscale Technologies for the Biosciences, November 26, 2002, Montreux, Switzerland.
  53. Madou, M. J., L. J. Lee, K. W. Koelling, S. Daunert, S. Lai, C. G. Koh, Y-J Juang, L. Yu, and Y. Lu, 2001. Design and Fabrication of Polymer Microfluidic Platforms for Biomedical Applications, ANTEC-SPE 59th, vol. 3, pp. 2534-2538 (May).
  54.  Lai, S., Y. Hudiono, L. J. Lee, S. Daunert, and M. Madou, 2001. A Novel Bonding Method for Polymer-Based Microfluidic Platforms, SPIE- Micromaching and Microfabrication Process Technology VII , Vol. 4557, pp. 280-287, San Francisco, CA.
  55.  M.J. Madou, L.J. Lee, K.W. Koelling, S.Lai, C.G. Koh, Y-J. Juang, L. Yu, L. Yumin, and S. Daunert, 2001. Design and Fabrication of Polymer Microfluidic Platforms for Biomedical Applications, Proceedings of the SPIE Annual Technical Conference, ANTEC 2001, 2534-2538.
  56. L. James Lee, Kurt W. Koelling, Marc J. Madou, Yi-Je Juang, Chee Guan Koh, and Yumin Lu, “Polymer Based Micro-Fabrication for BioMEMS Applications”, 2001 NSF Design, Manufacturing & Industrial Innovation Research Conference, Tampa, Florida, Jan 7-10 2001.
  57. Douglass, P. M., J. D. Patel, K-Q He, L. G. Bachas, M. J. Madou, and S. Daunert, 2001. Biologically Inspired, Intelligent Muscle Material for Sensing and Responsive Delivery of Countermeasures, OOICES-245.
  58.  Douglass, P. M., B. R. Wenner, S. Shrestha, B. V. Sharma, S. Lai, M. J. Madou, and S. Daunert, 2001. Genetically Designed Biosensing Systems for High-Throughput Screening of Pharmaceuticals, Clinical Diagnostics, and Environmental Monitoring, The International Society for Optical Engineering, San Jose, CA, January 24.
  59.  Badr, I. H. A., R. D. Johnson, G. Barrett, S. Lai, M. J. Madou, and L. G. Bachas, 2001. Fluorescence-Based Optical Sensors Integrated in a Centrifugal Microfluidics Platform, PITTCON’2001, New Orleans, LA, March 8.
  60.  Douglass, P. M., S. K. Deo, C. M. Ensor, M. J. Madou, and S. Daunert, 2001. Development of an Assay for 6-keto PGF1µ Employing 15-Hydroxyprostaglandin Dehydrogenase: Sensing Prostacyclin in Physiological Fluids, 221st ACS National Meeting, San Diego, CA, April 1.
  61. Wenner, B. R., P. M. Douglass, M. J. Madou, and S. Daunert, 2001. Integration of Genetically Engineered Sensing Elements with a Compact Disc Fluidics Platform, 221st ACS National Meeting, San Diego, CA, April 1.
  62.  Ehrick, J. D., S. F. Peteu, L. Moschou, L. G. Bachas, V. Gavalas, M. J. Madou, and S. Daunert, 2001. Artificial Muscle-Based Microactuators for Reversible Controlled Release, 222nd ACS National Meeting, Chicago, IL, August 20.
  63.  Ehrick, J. D., S. K. Deo, L. G. Bachas, M. J. Madou, and S. Daunert, 2001. Reversibly Responsive Protein-Immobilized Hydrogels for Controlled Release, 2nd BioMEMS and Biomedical Nanotechnology World 2001, Columbus, OH, September 22.
  64.  Ball, J. C., L. G. Bachas, M. J. Madou, and S. Daunert, 2001. Responsive Drug Delivery Systems: ChipRx, 2nd BioMEMS and Biomedical Nanotechnology World 2001, Columbus, OH, September 22.
  65. Johnson, R. D., V. Marathe, I. H. A. Badr, S. Lai, M. J. Madou, and L. G. Bachas, 2001. Ion Analysis via Centrifugal Microfluidics and Optode Arrays, 2nd BioMEMS and Biomedical Nanotechnology World 2001, Columbus, OH, September 23.
  66. Lai, S., Y. Hudiono, L. J. Lee, S. Daunert, and M. Madou, 2001. Packaging and Fluidic Analysis of Microfluidic Platforms, 2nd BioMEMS and Biomedical Nanotechnology World 2001, Columbus OH, September.
  67.  Wenner, B. R., R. D. Johnson, P. M. Douglass, S. Lai, L. G. Bachas, M. J. Madou, and S. Daunert, 2001. Integrated Analysis Systems on a Compact Disc Microfluidic Platform, Nanospace. The Institute for Advanced Interdisciplinary Research Houston, TX.
  68.  Black, J. P., B. Chen, R. Quinn, R. M. White, and M. Madou, 2000. A Comparison of the Performance of Surface Acoustic and Flexural Plate Devices as the Detector in a Gas Chromatograph. Ultrasonic Symposium, San Juan, Puerto Rico.
  69.  Madou, M. J., K-Q. He, and A. Shenderova, 2000. Fabrication of Artificial Muscle Based Valves for Controlled Drug Delivery, Micro Total Anal. Syst. Proc. µ-TAS Symp., 4th, pp. 147-150.
  70. Wenner, B. R., P. M. Douglass, M. J. Madou and S. Daunert, 2000. Biosensing on the CD Microfluidics Platform with Genetically Engineered Proteins, Society of Automotive Engineers (SAE) Technical Paper Series, from the International Conference on Environmental Systems.
  71. Douglass, P. M., B. R. Wenner, R. D. Johnson, G. Barrett, J. C. Ball, P-H. Hsu, J. Lee, L. G. Bachas, M. Madou, and S. Daunert, 2000. Biomimetic Detection Schemes on the LabCD, Proceedings, NanoSpace2000, The Institute for Advanced Interdisciplinary Research, Houston, TX.
  72. P. M. Douglass, L. L. E Salins, B. R. Wenner, S. Ramanathan, J. Lee, M. J. Madou, and S. Daunert, “Coupling Genetically Engineered Proteins and Microfluidics: Fluorescence Detection on the LabCD”, American Institute of Chemical Engineers, March 3-5, 2000, Atlanta, GA.
  73.  M.J. Madou, L.J. Lee, K.W. Koelling, S. Daunert, Siyi Lai, Yi-Je Juang, L. Yu, Y. Lu and C.G. Koh, “Microfabrication of Polymer Microfluidic Platforms for BioMEMS Applications,” BioMEMS and BioMedical Nanotechnology World 2000, Columbus Ohio, Sept 2000.
  74.  Marc J. Madou, Yumin Lu, Siyi Lai, Yi-Je Juang, L. James Lee, and Sylvia Daunert, “A Novel Design on a CD Disk for 2-Point Calibration Measurement”, 191-194, Solid-State Sensor and Actuator Workshop, Hilton Head Island, South Carolina, June 4-8 2000.
  75.  Douglass, P. M., J. Patel, K-Q. He, L. G. Bachas, S. Daunert, and M. J. Madou, 2000. Biologically Inspired, Intelligent Muscle Material for Sensing and Responsive Delivery of Countermeasures, Proceedings of the ICES 2000, Toulouse, France, July 10-13.
  76.  Lu, Y., J.Florkey, M.J.Madou Merging of IC-Manufacturing and Traditional Manufacturing in Bio-MEMS. Eurosensors XIV, Copenhagen, Denmark, August 27-30, 2000, p.9-16.
  77.  P. M. Douglass, L. L. E. Salins, B. R. Wenner, M. J. Madou, S. Daunert, “Development and Application of Genetically Engineered Reagents for Use in High-Throughput Screening of Pharmaceuticals”, 219th ACS National Meeting, March 26, 2000, San Francisco, CA.
  78.  B. R. Wenner, P.M. Douglass, L.L.E. Salins, M.J. Madou , S. Daunert, “Development of a Fluorescence-Based Phosphate-Sensing Platform Utilizing a Genetically Engineered Phosphate-Binding Protein Entrapment Scheme”, 219th ACS National Meeting, March 26, 2000, San Francisco, CA
  79.  B. R. Wenner, P. M. Douglass, L. L. E. Salins, M. J. Madou, S. Daunert, “Development of a Fluorescent Phosphate Sensing Platform Using a Genetically Engineered Phosphate-Binding Protein in a Sol-Gel Entrapment Scheme” CMACS, May 19, 2000, Covington, KY.
  80.  P. M. Douglass, B. R. Wenner, G. Barrett, P.-H. Hsu, M. J. Madou, S. Daunert, “Development and Applicaion of Biosensing Systems for Use in High-Throughput Screening of Pharmaceuticals, Clinical Diagnostics, and Environmental Monitoring” The Sixth World Congress on Biosensors, May 24, 2000, San Diego, CA.
  81.  Madou, M. J., S. Lai, L. J. Lee, and S. Daunert, 2000. Microfluidic Analysis of a Centrifugal Platform for Medical Diagnostics, AIChE Annual Meeting, Los Angeles, CA, November.
  82.  Madou, M. J., Y. Lu, S. Lai, L. J. Lee, and S. Daunert, 2000. A Centrifugal Microfluidic Platform: A Comparison, Proceedings of the MicroTAS 2000 Symposium, Enschede, The Netherlands, pp. 565-570, May.
  83.  P. M. Douglass, B. R. Wenner, G. Barrett, M. J. Madou, S. Daunert, “Design and Fabrication of a Compact Disc-Based Microfluidic Platform (the LabCD) for Use with Genetically-Engineered Reagents for Analyte Detection” CMACS, May 19, 2000, Covington, KY.
  84.  P. M. Douglass, B. R. Wenner, G. Barrett, P-H. Hsu, M. J. Madou, S. Daunert, “The Integration of Novel Biosensing Systems and the LabCD: New Tools for use in High-Throughput Screening, Clinical Diagnostics, and Environmental Monitoring”, The Eighth International Meeting on Chemical Sensors, July 4, 2000, Basel, Switzerland.
    P. M. Douglass, B. R. Wenner, G. Barrett, P-H. Hus, M. J. Madou, S. Daunert, “A Novel Approach to Drug Detection and Diagnostics Employing Genetically-Engineered Binding Proteins as Biosensing Elements on a Microfluidic Based Detection Platform”, Federation of Analytical Chemistry and Spectroscopy Societies Annual Meeting, September 2000, Nashville, TN.
  85.  B. R. Wenner, P. M. Douglass, L. L. E. Salins, M. J. Madou, S. Daunert, “A Novel Fluorescence-Based Phosphate Sensing Platform Using a Genetically Engineered Phosphate-Binding Protein in a Sol-Gel Entrapment Scheme”, Federation of Analytical Chemistry and Spectroscopy Societies Annual Meeting, September 27, 2000, Nashville, TN.
  86.  P. M. Douglass, B. R. Wenner, G. Barrett, M. J. Madou, L. G. Bachas, S. Daunert, “Genetically Engineered Binding Proteins: Development of Drug Detection Systems”, The International Chemical Congress of the Pacific Basin Societies, December 18, 2000, Honolulu, Hawaii.
  87. Akbar, S. A., P. K. Dutta, Y. Wang, B. R. Patton and M. J. Madou. Multicisciplinary Curriculum in Sensor Materials, Proceedings of ICEE-99, August 10-14, 1999, Ostrava-Prague, Czech Republic, CD-ROM Edition.
  88. Yao, S., Y-S. Zhang, and M. J. Madou, 1998. Telemetric Carbon Dioxide Sensor for Medical Applications, Technical Digest of the Seventh International Meeting on Chemical Sensors, July 27-30, pp. 494-496.
  89.  Black, J. P., B. Chen, R. M. White, M. Madou, and R. Quinn, 1998. Evaluation of the Relative Sensitivity of SAW and Flexural Plate Wave Devices for Atmospheric Sensing, NASA-Ames Research Report NCC2-5185, January.
  90.  Somps, C. J., M. J. Madou, and J. W. Hines, 1998. Microfabricated Electrochemical Sensors for Chronic Physiologic Monitoring, in Proceedings of Biomedical Sensing and Imaging Technologies, Progress in Biomedical Optics, vol. 3253, pp. 199-207.
  91. Somps, C. J., M. J. Madou, and J. W. Hines, 1997. Effect of Rat Subcutaneous Tissue on a Polymeric Membrane pH Sensor, in Biotelemetry XIV, Proceedings of the Fourteenth International Symposium on Biotelemetry, Tectum Verlag, Marburg, Germany, April 6-11, pp. 105-112.
  92. Madou, M. J., A. Lal, G. Schmidt, X. Song, K. Kinoshita, M. Fendorf, A. Zettl, and R. White, 1997. Carbon Micromachining (C-MEMS), Proceedings of JECS, Paris.
  93. Quinn, R., M. J. Madou, A. Ricco, A. Zent, B. Chen, and R. White, 1997. A Performance Optimized Gas Sensing Array through Instrument Hybridization, Proceedings of JECS, Paris.
  94. Madou, M. J., Y. Zhang, C.C. Wang, and S. A. Akbar, 1997. MEMS Chemical Sensors for Automotive Applications, SAE Proceedings Sensors Expo, Detroit, pp. 329-335.
  95.   Somps, C., M. J. Madou, and J. Hines, 1996. Telemetric Ion Selective Electrodes for In Vivo Applications, The Sixth International Meeting on Chemical Sensors, Gaithersburg, Md., July 22-25.
  96. Madou, M. J., 1995. Si Micromachining: The Newest Precision Engineering Tool, J. Electrochem. , Chicago, October 8-13.
  97.  Madou, M. J., 1994. Compatibility and Incompatibility of Chemical Sensors and Analytical Equipment with Micromachining, Invited paper, Solid-State Sensor and Actuator Workshop, Hilton Head Island, Technical Digest, pp. 164-171.
  98.  Oh, S., S. Cahill, and M. J. Madou, 1992. Thin Film Heater on a Thermally Isolated Microstructure, Proceedings of Materials Research Society Conference, April.
  99.  Oh, S., H. Kim, and M. J. Madou, 1992. In-situ Electrochemical Oil-Quality Sensor, 4th International Meeting on Chemical Sensors.
  100. Oh, S., T. Otagawa, and M. J. Madou, 1992. Fluoride-Based, Low Temperature Solid Electrolyte Fuel Cell, 27th Intersociety Energy Conversion Engineering Conference.
  101.  Madou, M. J., S. Oh, and T. Otagawa, 1992. Low Temperature Solid State Oxygen Sensor, ICMCTF-92 (International Conference on Metallurgical Coatings and Thin Films), San Diego, April.
  102. Oh, S., and M. J. Madou, 1992. Planar-Type, Gas-Diffusion-Controlled Oxygen Sensor Fabricated by the Plasma Spray Method, 4th International Meeting on Chemical Sensors.
  103.  Joseph, J., and M. Madou, 1992. Outlook for Chemical and Biosensors in the 1990s, Proceedings Sensor Expo West, Anaheim, CA, April 14-16.
  104.  Maseeh, F., J. Joseph, and M. J. Madou, 1991. Feasibility and Practicality of Monolithic Sensors, Sensor Expo West Proceedings, p. 103D-1.
  105.  Madou, M. J., and S. R. Morrison, 1991. High-Field Operation of Submicrometer Devices at Atmospheric Pressure, Proc. Int. Conf. on Solid-State Sensors and Actuators, p. 145.
  106. Hines, J. W., S. A. Arnaud, M. J. Madou, J. Joseph, and A. Jina, 1991. A Coated-Wire Ion-Selective Electrode for Ionic Calcium Measurements, Sensors 2000 Program NASA-Ames Research Center.
  107.  Joseph, J., A. Jina, and M. J. Madou, 1991. Separation-Free Electrochemical Immunosensors, Proc. AIChE Symp. on Electrochemical Sensors, Los Angeles.
  108.  Hesketh, P. J., M. J. Madou, T. Otagawa, J. Joseph, and J. N. Nikolchev, 1990. The Application of Micromachining to Biomedical Sensors, Proc. Sensors Expo, p. 305D-1.
  109.  Suva, R., V. Rimer, S. Brandt, M. J. Madou, and P. Ross, 1986. All Solid-Sate Urea Sensor, Proc. of the 2nd Int. Meeting on Chemical Sensors, Bordeaux.
  110.  Madou, M. J., and A. Agarwal, 1986. SiC as a High-Temperature Semiconductor pH Sensor, Proc. of the 2nd Int. Meeting on Chemical Sensors, Bordeaux.
  111. Madou, M. J., and T. Otagawa, 1989. Micron and Submicron Electrochemical Sensors, in “Process and Sensing Diagnostics,” J. J. Ulbrecht, Ed. AIChE Symp. Ser. 267, vol. 85, p. 7.
  112.  Hesketh, P. J., M. J. Madou, T. Otagawa, J. Joseph, and A. Saaman, 1989. A Silicon-based Microelectrochemical Blood-Gas Sensing Probe, Electrochem.Soc. Spring Meeting Proc., p. 923.
  113.  Joseph, J., M. J. Madou, T. Otagawa, P. Hesketh, and A. Saaman, 1989. Catheter-based Micromachined Electrochemical Sensors, SPIE-Catheter-based Sensing and ImagingTechnology, vol. 1068, p.18.
  114.  Madou, M. J., S. Gaisford, and A. Sher, 1986. A Multifunctional Sensor for Humidity, Temperature and Oxygen, Proc. of the 2nd Int. Meeting on Chemical Sensors, Bordeaux.
  115.  Madou, M. J., S. Gaisford, B. Suva, and P. Ross, 1986. Detailed Impedance Analysis of Potasium-Sensitive Membranes, Proc. of the 2nd Int. Meeting on Chemical Sensors, Bordeaux.
  116.  Madou, M. J., K. Kinoshita, M. C. H. McKubre, and S. Szpak, 1983. Electrocatalysis Studies on the Cathodic Reduction of Thionyl Chloride, Proc. Symp. Chemistry and Physics of Electrolysis,” Spring Meeting, San Francisco (American Chemical Society, Washington, D.C.).
  117. Morrison, S. R., M. J. Madou, and K. W. Frese, Jr., 1981. Photocorrosion in Solar Cells, Proc. Symp. Photoeffects at Semiconductors-Electrolyte Interfaces, A. Nozik, ed., ACS Symposium Series No. 146 (American Chemical Society, Washington, D.C.).
  118.  Madou, M., W. P. Gomes, and F. Cardon, 1981. Een Elektrochemische Zonnebatterij op de Basis van n- and p-Type Si (in Dutch: translation = An Electrochemical Solar Battery Based on n- and p-type Silicium), Nederlands Tijdschrift voor Fotonica 7, pp. 21.
  119. Madou, M. J., K. W. Frese, Jr., and S. R. Morrison, 1980. Photoelectrochemical Corrosion of Semiconductors for Solar Cells, Proc. Soc. Photo-Opt. Instrum. Eng., vol. 248, pp. 88-95. Madou, M. , 1981. Zonneenergieconversie aan de Fasegrens Silicium/Elektrolyt (in Dutch: translation = Solar Energy Conversion at the Silicon/Electrolyte Interface), Dag der Jongeren, Mei, Brussel , Vlaamse Chemische Verenining, pp. F04-01-F4-03.
  120. Madou, M. J., W. P. Gomes, and F. Cardon, 1978. The Electrochemical Behavior GaP-Electrodes under Illumination, Extended Abstracts, 2nd. International Conference on Photochemical Conversion and Storage of Solar Energy, August, Cambridge, England, pp.111-113.
  121. Madou, M. J., W. P. Gomes, and F. Cardon, 1977. Stabilization of the GaP/Electrolyte Photovoltaic Cell, Proc. Int. Photovoltaic Energy Conf., Luxembourg, 27-30 September (D. Reidel Publishing Company, Dordrecht, Holland/Boston, Ma), pp. 415-424.