Dr. Marc Madou

Chancellor’s Professor

Depmartment of Mechanical and Aerospace Engineering

Biomedical Engineering Department

Department of Chemical Engineering and Materials Science

Integrated Nanofabrication Facility (INRF)

http://www.biomems.net

EDUCATION

Ph.D., Semiconductor Electrochemistry, 1978, Solid-State Physics Laboratory,

Rijksuniversiteit, Ghent, Belgium - Doctoral thesis: "n-and p-type GaP as Semi-

conductor Electrodes" (summa cum laude), Rijksuniversiteit, Ghent, Belgium.

M.Sc., Physical Chemistry, 1975, Rijksuniversiteit, Ghent, Belgium.

B.Sc., Physical Chemistry, 1973, Rijksuniversiteit, Ghent, Belgium.

PROFESSIONAL EXPERIENCE

Chancellor's Professor of Mechanical and Aerospace Engineering, University of

California Irvine, CA, 2002-2007.

Renewal: Chancellor's Professor of Mechanical and Aerospace Engineering,

University of California Irvine, CA, 2007-present.

Professor Biomedical Engineering, University of California Irvine, CA, 2002-

present.

Professor Department of Chemical Engineering and Materials Science,

University of California Irvine, CA, 2002-present.

Professor Integrated Nanosystems Research Facility (INRF), University of

California Irvine, CA, 2002-present.

Vice President Advanced Technology, Nanogen, San Diego, CA, 2001-2002.

CMR Scholar (Endowed Chair), Center for Materials Research (CMR) at Ohio

State University (OSU), 1997-2000.

Professor Materials at OSU, 1997-2000.

Professor Chemistry at OSU, 1997-2000.

Director NSF Center for Industrial Sensors and Measurements (CISM)

Microfabrication Applications Principal, 1999-2000. The Center for Industrial

Sensors and Measurements (CISM) was established in April 1996 as a National

Science Foundation State/University/Industry Cooperative Research on the

campus of The Ohio State University in Columbus, Ohio. It was a one-of-a-kind

national facility created to meet the need for continuing sensor research in

industrial processes.

Visiting Scholar at UC Berkeley, 1996-2000.

Miller Visiting Professor at UC Berkeley, 1995-1996.

Visiting Professor at Louisiana State University, Senior Scientific Advisor to

CAMD, 1994-1995.

Vice Chairman and Founder Teknekron Sensor Development Corporation

(TSDC), Menlo Park, CA, 1989-1993.

Director, Microsensor Department, SRI International, Menlo Park, CA, 1983-

1989.

Associate Director, Microsensor Department, SRI International, Menlo Park,

CA, 1982-1989.

Founder and Manager of Microsensor Program, SRI International, Associate

Director, Physical Electronics Laboratory, Menlo Park, CA, 1982-1983.

Senior Materials Scientist, Materials Research Laboratory SRI International,

Menlo Park, CA, 1981-1982.

Assistant Professor, Rijksuniversiteit (State University of Ghent) Gent, Belgium

1981.

Visiting Scientist SRI Internacional, Menlo Park, CA, Materials Scientist,

Materials Research Laboratory under Dr. S. R. Morrison, 1979-1980.

NASA Ames Research Center Associate, Mountain View, CA, 1994-2004.

Microfabrication Applications Principal and Founder, San Diego, CA, 1993-

present (my consulting practice). I have consulted on sensor and

microfabrication issues since 1993. Representative companies include: Energizer

(USA), National Semiconductor (USA), Magneti Marelli (Italy), Fläkt

(Sweden), IMEC (Belgium), ITT Barton (USA), Moore Industries (USA),

Gamera (USA), Microbionics (USA), CMB/Enevate (USA), iGlyko (USA),

Bowles Fluidics Corporation (USA), NASA Ames (USA), Idetek (USA),

VARTA (Germany), Osaka Gas (Japan), PG&E (USA), EPRI (USA), SensIrox

(USA) and Polychip (USA).

AWARDS AND DISTINCTIONS

Chancellor’s Professor University of California Irvine 2007-present.

Chancellor’s Professor University of California Irvine 2002-2007.

Distinguished Visiting Honorary Professor IIT Kanpur, 2004-present.

Honorary Visiting Professor IIT Kharagpur, India 2007-present

Visiting Professor UNIST (World Class University Scholar, WCU), South-

Korea 2009-present.

Endowed Chair, CMR Scholar, Center for Materials Research Center, Ohio

State University, 1997-2000.

Miller Visiting Professor at UC Berkeley, 1995-1996.

Sample of Distinghuised Lectures:

o Academic Leader. Since 2008, the Tecnológico de Monterrey in Mexico

has implemented a program called "Academic Leaders", which consists

in bringing distinguished professors from all over the world, who are

experts in different areas of knowledge, to share their experiences with

students, professors and the community. Dr. Madou was an academic

leader of the Tecnológico de Monterrey-Campus Guadalajara during the

semester of January-May 2011.

o Distinguished Visiting Professor, AMC/FUMEC, Instituto Politécnico

Nacional, Mexico, 2007.

o Distinguished Speaker for the Department of Biomedical Engineering

Seminar series at UT Austin. Every year professors in the field of

BME/BE recommend over 40 top researchers and finally 12 outstanding

scholars are chosen for invitations. Other speakers in the past have

included Professors Steven Chu (Stanford/Berkeley), Shu Chien

(UCSD), Luke Lee (Berkeley/ETH), Bob Nerem (GaTech), and many

other leading scientists. From MEMS to NEMS with Carbon. February

14th, 2008.

o Technology “Rock Star” Award. Bioengineering Inspired by Nature.

Boston Scientific Fremont Campus, June 15th, 2009.

o Prominent Lecturer. Yeungnam University, South-Korea. Prominent

lecturer for the undergraduate course, ‘Lectures of Edge Frontiers on the

Mechanical Engineering,’ in the School of Mechanical Engineering

sponsored by the Korea Research Foundation. Title: Biomimetics in

Bioengineering: From Fractals to Worms on a Compact Disc. Sept. 22,

2009 *.

Summa Cum Laude, Ph.D. Dissertation, Rijksuniversiteit, Ghent, Belgium,

1978.

COMPANY ADVISORY BOARDS AND FOUNDER

Conference Organizing Committees and Conference Advisory Boards

Conference organizer, session chair and keynote speaker. The first Micro-Med-

A workshop at the Protea Hotel, Kruger Gate, Mpumalanga, South Africa, from

7 – 10 September 2011. Fluidics on a Compact Disc (CD) for Molecular

Diagnostics. This constitutes an effort on our part to learn about

Microfluidics/Medical Diagnostic needs in the third world. Nex year we will

organize this conference in Kolkata, India.

Session chair and keynote speaker. 7th Nanoscience and Nanotechnology

Conference, 27 June to 1 July 2011. Sabanci Universitesi, Turkey. Nano and

Micro-Patterning of Carbon.

Plenary talk and session chair. International Conference on “Biomaterials and

Implants: Prospects and Possibilities in the New Millennium. ”A three-day long

international conference at the Central Glass & Ceramic Research Institute

(CGCRI), Kolkata, India during July 21-23, 2011. Biosensors and Drug

Delivery.

General chair of the Fourth International Symposium on Dielectrics and

Engineered Interfaces in Biological and Biomedical Applications scheduled

during the 219th Electrochemical Society meeting, in Montreal, Canada, May 1-

6, 2011.

Organizing committee and Scientific Advisory Committee Nanotech Montreux,

Switzerland, 1999-2006. And again in 2010 and 2011.

Gerneral chair of the Third International Symposium on Dielectrics and

Engineered Interfaces in Biological and Biomedical Applications scheduled

during the 219th Electrochemical Society meeting, in San Fransisco, USA, May

26- 27, 2009.

General chair and organizer of the Third Indo-US conference on Fabrionics, a

two-day workshop on Fabrionics that was held at the University of California,

Irvine June 28, 29th, 2009

(http://www.indiajournal.com/pages/event.php?id=7582).

Member International Advisory Board of the Kuala Lumpur International

Conference on Biomedical Engineering (Biomed 2008, Biomed 2009).

Member International Conference on Advanced Manufacturing Technologies

(IMCAT 2007).

Member International Advisory Board (IAB) of the 4th Forum on New

Materials CIMTEC 2006, 2007.

International Advisory Committee, International Workshop on MEMS and

Micro/Nano Systems Technology for Bio-Implants and Bio Applications,

Kolkata, India, December 28-30, 2006.

Organizing committee: 1st International Conference on Micromanufacturing,

Urbana Champaign, 2006.

Scientific Advisory Board for Solid State Sensors, Hilton Head Island 1998 and

2000.

SIM session organizer, Salt Lake City, 2002.

MRS symposium organizer, Boston, Fall 2001, 2002, 2003.

Organizer and general chairman BIO-MEMS 1999 and 2000, San Francisco,

CA.

Scientific Advisory Board for Transducers 1997, Chicago and Transducers

1999, Sendai.

Journal Editor / Membership on Journal Editorial Boards

Founding Editor of eMicronano.com (http://www.emicronano.com/).

Editorial Advisory Board. Micro & Nano Systems, 2009

(http://www.bentham.org/mns/index.htm),

Editorial Board, International Journal of Materials and Structural Integrity, 2007

(http://www.inderscience.com/browse/index.php?journalCODE=ijmsi).

Editorial Board, International Journal of Precision Engineering and

Manufacturing 2007

(http://www.springer.com/engineering/production+eng/journal/12541?detailsPa

ge=editorialBoard).

International Advisory Board, Analytical and Bioanalytical Chemistry: 2004-

2007.

Editorial Board, International Journal on Manufacturing Technology and

Research: 2006-2007.

Regional Editor for Sensors and Actuators B, North and South America, 1999-

2005.

Advisory Boards and Panels

Scientific Advisory Board of SUNUM (Sabancı University Nanotechnology

Research and Application Center), Turkey, 2011- present.

Member of the Nano- and Microsystems Programme’s Scientific Advisory

Board, Forschungszentrum Karlsruhe, Karlsruhe Institute of Technology (KIT),

Helmholtz Society, Germany, 2007-present.

NSF “Blue Ribbon” Panel for ERC selection Panel Meeting Review, NSF,

Arlington, VA, January 10-12, 2006.

NSF WTEC Study on Micro-Manufacturing Panel Member. Site visits to Korea,

Taiwan, Japan and Europe, 2004-2005.

IEEE member. Member at Large of The Electrochemical Society (Sensors).

International Advisory Committee, The NSF NSE, August 7-9, 2004 NSEC Site

Visit panel at UCLA.

Advisory Board of the NSF-IGERT at the University of Kentucky, 1998-2004.

Founder

Scientific Founder & Advisor of SensIrOx and a co-inventor of the company's

core technology, Columbus, 2001 (http://www.sensirox.com/principals.htm).

Company dissolved.

Vice Chairman and Founder Teknekron Sensor Development Corporation

(TSDC), Menlo Park, CA, 1989-1993. Company dissolved.

Founder RotaPrep, Irvine, CA, 2006 (http://www.rotaprep.com/people.html).

Company is active.

Scientific Founder & Advisor of Carbon Micro Battery (now Enevate) and a co-

inventor of the company’s core technology, Irvine, 2006 (http://c-

mb.com/index.php). Company is active.

Founder iGlyko, Irvine, CA, 2007

(http://www.iglyko.com/iGlyko/Welcome_to_iGlyko.html). Company is active.

RESEARCH PUBLICATIONS

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.

Edited Books/Book Sections

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.

Refereed Journal Articles

1. Madou, M. J., W. Gomes, and F. Cardon, 1977. Impedance Measurements at the

n- and p-Type GaP Single Crystal Electrode, J. Electrochem. Soc., vol. 124, no.

10, pp. 1623-1627 (October).

2. Madou, M. J., W. Gomes, and F. Cardon, 1977. Anodic Processes at the n- and

p-Type GaP Electrodes, Ber. Bunsenges. Phys. Chem., vol. 81, no. 11, pp. 1186-

1190 (November).

3. Madou, M. J., W. Gomes, and F. Cardon, 1978. Cyclic-Voltammetric Study of n-

and p-type GaP Electrodes, Ber. Busenges Phys. Chem., vol. 82, pp. 819-823.

4. Madou, M. J., K. W. Frese, Jr., and S. R. Morrison, 1979. Electron Exchange at

the Surface of Thermally Grown Silicon, J. Electrochem. Soc., vol. 126, no. 10,

pp. 1827-1828 (October).

5. Madou, M. J., K. W. Frese, Jr., and S. R. Morrison, 1980. The Si/SiO2

Electrode, Phys. Stat. Solidi (a), vol. 57, pp. 705-712.

6. Madou, M. J., K. W. Frese, Jr., and S. R. Morrison, 1980. Influence of Surface

Damage on Stabilization Against Photodecomposition of n-type GaAs, J.

Electrochem. Soc., vol. 127, no. 4, pp. 987-989 (April).

7. Madou, M. J., K. W. Frese, Jr., and S. R. Morrison, 1980. Photoelectrochemical

Corrosion as Influenced by an Oxide Layer, J. Phys. Chem., vol. 84, no. 25, pp.

3423-3428.

8. Frese, K. W., Jr., M. J. Madou, and S. R. Morrison, 1980. Investigation of

Photoelectrochemical Corrosion of Semiconductors, J. Phys. Chem., vol. 84, no.

24, pp. 3712-3718.

9. Morrison, S. R., M. J. Madou, and K. W. Frese, Jr., 1980. Imperfections in and

Ion Diffusion through Oxide Layer in Silicon, Applic. Surf. Sci., vol. 6, pp. 138-

148.

10. Frese, K. W., Jr., M. J. Madou, and S. R Morrison, 1981. Investigation of

Photoelectro-Chemical Corrosion of Semiconductors, II. Kinetic Analysis of

Corrosion-Competitive Reactions on n-GaAs, J. Electrochem. Soc., vol. 128, no.

7, pp. 1527-1531 (July).

11. Frese, K. W., Jr., M. J. Madou, and S. R. Morrison, 1981. Investigation of

Photoelectro-chemical Corrosion of Semiconductors, III. Effects of Metal

Layers on the Stability of GaAs, J. Electrochem. Soc., vol. 128, no. 9, pp. 1939-

1943 (September).

12. Madou, M. J., B. H. Loo, K. W. Frese, Jr., and S. R. Morrison, 1981. Bulk and

Surface Characterization of the Silicon Electrode, Surface Sci., vol. 108, pp.

135-152.

13. Brondeel, P., M. J. Madou, W. P. Gomes, and F. Cardon, 1982. Investigation on

Photoelectro-chemical Cells Based upon Silicon/Methanol Interfaces. Part 1: n-

Type Si, Solar Energy Matls., vol. 7, pp. 23-32.

14. Madou, M. J., P. Brondeel, W. P. Gomes, P. Hanselaer, and F. Cardon, 1982.

Investigation on Photoelectrochemical Cells Based upon Silicon/Methanol

Interfaces. Part 2: p-Type Si, Solar Energy Matls., vol. 7, pp. 33-42.

15. Madou, M. J., W. P. Gomes, F. Fransen, and F. Cardon, 1982. Anodic Oxidation

of p-Type Silicon in Methanol as Compared to Glycol, J. Electrochem. Soc., vol.

129, no. 12, pp. 2749-2752 (December).

16. Madou, M. J., and M. C. H. McKubre, 1983. Impedance Measurements and

Photoeffects on Ni-Electrodes, J. Electrochem. Soc., vol. 130, no. 5, pp. 1056-

1061 (May).

17. Fransen, F., M. J. Madou, W. H. Laflere, F. Cardon, and W. P. Gomes, 1983. On

the Dielectric Properties of Semiconducting Materials as Obtained from

Impedance Measurements on Schottky Barriers, J. Phys. D (Appl. Phys.), vol.

16, pp. 879-888.

18. Madou, M. J., K. Kinoshita, and M. C. H. McKubre, 1983. Electrochemical

Studies on the Cathodic Reduction of Thionyl Chloride, J. Electrochem. Soc.,

vol. 130, no. 3, p. 126C (March).

19. Kinoshita, K., and M. J. Madou, 1984. Electrochemical Measurements on Pt, Ir,

and Ti Oxides as pH Probes, J. Electrochem. Soc., vol. 131, no. 5, pp. 1089-

1094 (May).

20. Madou, M. J. and K. Kinoshita, 1984. Electrochemical Measurements on Metal

Oxides for pH Probing, Part I, Electrochim. Acta, vol. 29, no. 3, pp. 411-414.

21. Madou, M. J., K. Kinoshita, and M.C.H. McKubre 1984. Electrochemical

Measurements on Metal Oxides for pH Probing, Part II, Electrochim. Acta, vol.

29, no. 3, pp. 419-423.

22. Madou, M. J., and S. Szpak, 1984. Investigation of SOCl2 Reduction by Cyclic

Voltammetry and AC Impedance Measurements, J. Electrochem. Soc., vol. 131,

no. 11, pp. 2471-2483 (November).

23. Mercier, J. J., F. Fransen, F. Cardon, M. J. Madou, and W. P. Gomes, 1985.

Effects of Anodic Polarization upon Electrochemically Grown Oxide Films on p-

Si, Studied by Ellipsometric and Capacitance Measurements, Ber. Bunsenges.

Phys. Chem., vol. 89, pp. 117-120.

24. G. H. Tsau, A. Sher, M. Madou, J. A. Wilson, V. A. Cotton adn C. E. Jones,

1986. Low-frequency admittance measurements on the HgCdTe/PhotoxSiO2

interface, J. Appl. Phys. 59(4), 1238-1244.

25. Madou, M. J., J. J. Smith, and S. Szpack, 1987. Comments on Electroreduction

of SOCl2, J. Electrochem. Soc., vol. 134, p. 2794.

26. Madou, M. J., S. R. Morrison, and V. P. Bondarenko, 1988. Introduction of

Impurities in Anodically Grown Silica, J. Electrochem. Soc., vol. 135, no.1

(January).

27. Tsau, G.-H., A. Sher, M. J. Madou, J. A. Wilson, V. A. Cotton, and C. E. Jones,

1988. State Characterization of the Hg1-xCdxTe/PhotoxTM SiO2 Interface, J.

Vac. Sci. Technol. A, vol. 4, no. 4.

28. Madou, M. J., and T. Otagawa, 1988. Electrolytic Media for Chemical Sensors,

Solid State Ionics, pp. 28-30.

29. Krishnamurthy, S., A. Sher, M. J. Madou, and A.-B. Chen, 1988. Semiconductor

Alloys for Fast Thermal Sensors, J. Appl. Phys., vol. 64, no. 3, p. 1530.

30. Otagawa, T., M. J. Madou, S. Wing, J. Rich Alexander, S. Kusanagi, T. Fujioka,

and A. Yasuda, 1990. Planar Microelectrochemical Carbon Monoxide Sensors,

Sensors and Actuators, B1, 319.

31. Itoh, K., and M. J. Madou, 1991. Optical Waveguides for Surface Spectroscopy:

FePO4 Thin-Film/K+-doped Glass Composite Optical Waveguide Systems

Having Tapered Velocity Couplers, J. Appl. Phys., vol. 69, no. 11, p. 1.

32. Oh, S., J. Joseph, T. Otagawa, and M. J. Madou, 1992. Multilayer Ionic Devices

Fabricated by the Plasma Spray Method, Solid State Ionics, vol. 53-56, pp. 90-

94.

33. Fariborz, M., J. Joseph, and M. J. Madou, 1992. Feasibility and Practicality of

Monolithic Sensors, Sensors, pp. 31-35 (September).

34. Madou, M., T. Otagawa, M. Tierney, J. Joseph, and S. Oh, 1992. Multilayer

Ionic Devices Fabricated by Thin and Thick Film Technologies, Solid State

Ionics, vol. 53-56, pp. 47-57.

35. Madou, M. J., and M. Tierney, 1992. Biosensors and Microfabrication, Invited

paper Applied Biochemistry and Biotechnology.

36. Madou, M. J., and M. Tierney, 1993. Required Technology Breakthroughs to

Assume Widely Accepted Biosensors, Invited paper, Applied Biochemistry and

Biotechnology, vol. 41, Applied Biochemistry and Biotechnology, Volume 41,

Numbers 1-2 / April, 1993.

37. Madou, M. J., and J. Joseph, 1993. Immunosensors with Commercial Potential,

Immunomethods, vol. 3, pp. 134-152. Invited review article.

38. Michael J. Tierney, Hyun-Ok L. Kim, Marc Madou and Takaaki Otagawa, 1993.

Microelectrochemical sensor for nitrogen oxides, Sensors and Actuators B, 13-

14 (1993) 408-411.

39. Oh, S., and M. J. Madou, 1992. Planar-Type, Gas Diffusion-Controlled Oxygen

Sensor Fabricated by the Plasma Spray Method, Sensors and Actuators B, vol.

13-14, pp. 581-582.

40. Somps, C. J., J. L. Pickering, M. J. Madou, J. W. Hines, D. L. Gibbs, and M. R.

Harrison, 1996. Electrochemical Performance of an Ion Selective, Polymeric

Membrane Following Chronic Implantation in Rat Subcutaneous Tissue,

Sensors and Actuators B, vol. 35-36, pp. 222-227.

41. Wang, C. C., S. A. Akbar, and M. J. Madou, 1998. Ceramic Based Resistive

Sensors, J. Electroceramics, vol. 2, no. 4, pp. 1-10, Special Issue on Sensor

Materials.

42. Kim, J., X. Song, K. Kinoshita, M. J. Madou, and R. White, 1998.

Electrochemical Studies of Carbon Films from Pyrolyzed Photoresist, J.

Electrochem. Soc., vol. 145, no. 7, pp. 2314-2319.

43. Zent, A. P., R. C. Quinn, and M. Madou, 1998. A Thermo-Acoustic Gas Sensor

Array for the Detection of Photochemically Critical Species in the Martian

Atmosphere, Planetary Space Science, vol. 46, pp. 795-803.

44. Low, L-M., S. Seetharaman, K-Q. He, and M. J. Madou, 2000. Microactuators

Toward Microvalves for Responsive Controlled Drug Delivery, Sensors and

Actuators B, vol. 67, pp. 149-160.

45. Madou, M. J., and J. Florkey, 2000. From Batch to Continuous Manufacturing

of Microbiomedical Devices, Chemical Reviews, vol. 100, pp. 2679-2691.

46. Madou, M. J., and K-Q. He, 2000. Exploitation of a Novel Artificial Muscle for

Controlled Drug Delivery, Polym. Mater. Sci. Eng., vol. 83, pp. 495-497.

47. Ranganathan, S., R. McCreery, S. M. Maijji, and M. J. Madou, 2000.

Photoresist-Derived Carbon for Microelectromechanical Systems and

Electrochemical Applications, J. Electrochem. Soc., vol. 147, pp. 277-282.

48. Sheng Yao, Min Wang, and Marc Madou, 2001, A pH Electrode Based on Melt-

Oxidized Iridium Oxide, Journal of The Electrochemical Society, 148(4) H29-

H36

49. Johnson, R. D., I. H. A. Badr, G. Barrett, S. Lai, Y. Lu, M. J. Madou, and L. G.

Bachas, 2001. Development of a Fully-Integrated Analysis System for Ions

Based on Ion-Selective Optodes and Centrifugal Microfluidics, Anal. Chem.,

vol. 73, pp. 3940-3946.

50. Madou, M. J., Y. Lu, S. Lai, C. G. Koh, Y-J Juang, L. J. Lee, and B. Wenner,

2001. A Novel Design on a CD Disk for 2-Point Calibration Measurement,

Sensors and Actuators A, vol. 91, no. 3, pp. 301-306.

51. Madou, M. J., L. J. Lee, S. Daunert, S. Lai, and C. H. Shih, 2001. Design and

Fabrication of CD-Like Microfluidic Platforms for Diagnostics: Microfluidic

Functions, Biomedical Microdevices, vol. 3, no. 3, pp. 245-254.

52. Lee, L.J., M. J. Madou, K. W. Koelling, S. Daunert, S. Lai, C. G. Koh, Y-J

Juang, Y. Lu, and L.Yu, 2001. Design and Fabrication of CD-Like Microfluidic

Platforms for Diagnostics: Polymer-Based Microfabrication, Biomedical

Microdevices, vol. 3, no. 4, pp. 339-351.

53. Min Wang, Sheng Yao, Marc Madou, A long-term stable iridium oxide pH

electrode, Sensors and Actuators B: Chemical, Volume 81, Issues 2-3, 5 January

2002, Pages 313-315.

54. Huang,Y., E. Mather, J. Bell, and M. Madou, 2002. MEMS-Based Sample

Preparation for Molecular Diagnostics, Anal. Bioanal. Chem., vol. 372, pp. 49-

65.

55. 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).

56. Wang, M., S. Yao, and M. Madou, 2002. A Long-Term Stable Iridium Oxide pH

Electrode, Sensors and Actuators Part B, Chemical, vol. 81, no. 2-3, pp. 313-

315.

57. Badr, I. H. A., R. D. Johnson, M. J. Madou, and L. G. Bachas, 2002.

Fluorescent Ion-Selective Optode Membranes Incorporated onto a Centrifugal

Microfluidics Platform, Anal. Chem., 2002, 74 (21), pp 5569–5575

58. L. 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. 42:871 (2002).

59. Kassegne, S., H. Reese, P. Swanson, and M. J. Madou, 2002. Micro Electro-

Optical DNA Array Sensor, Full Paper Published in the Proceedings of the SPIE

Conference on Smart Structures and Materials, San Diego, CA, March 17-21.

60. Kassegne, S., R. Whitten, and M. J. Madou, 2002. Design Issues in SOI-Based

High-Sensitivity Piezoresistive Cantilever Devices, Full Paper Published in the

Proceedings of the SPIE Conference on Smart Structures and Materials, San

Diego, CA, March 17-21, 2002.

61. Amit Singh, Jaishankar Jayaram, Marc. Madou, and Sheikh Akbar, 2002.

Pyrolysis of Negative Photoresists to Fabricate Carbon Structures for

Microelectromechanical Systems and Electrochemical Applications, Journal of

The Electrochemical Society, 149(3) E78-E83.

62. Deo, S.K., E.A.Moschou, S.F.Petue, L.G.Bachas, S.Daunert, P.Eisenhardt and

M.J.Madou, Responsive Drug Delivery Systems, May 1, Anal.Chem., 207A-

213A, 2003.

63. Samuel K. Kassegne, Howard Reese, Dalibor Hodko, Joon M. Yang, Kamal

Sarkar, Dan Smolko, Paul Swanson, Daniel E. Raymond, Michael J. Heller,

Marc J. Madou, 2003, Numerical modeling of transport and accumulation of

DNA on electronically active biochips, Sensors and Actuators B. 94(2003) 81-

98

64. M.J.Madou, Cubiciotti, R.,"Scaling Issues in Chemical and Biological Sensors

(Invited Paper),"IEEE, Special Issue on Chemical and Biological Microsensors.

Eds. Casalnuovo, S and Brown R.B., 2003, volume 91, issue 6.

65. Kunal Vaed, John Florkey, Sheikh A. Akbar, Marc J. Madou, John J. Lannutti

and Sean Cahill, An Additive Micromolding Approach for the Development of

Micromachined Ceramic Substrates for RF Applications, JOURNAL OF

MICROELECTROMECHANICAL SYSTEMS, VOL. 13, NO. 3, JUNE 2004

66. Siyi Lai, Shengnian Wang, Jun Luo, L. James Lee, Shang-Tian Yang, and Marc

J. Madou, 2003, Design of a Compact Disk-like Microfluidic Platform for

Enzyme-Linked Immunosorbent Assay, Anal. Chem. 2003,76, 1832-2837.

67. L. G. 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 EGFP as a

Fluorescent Reporter, Anal. Chem., 76, 7263-7268, 2004

68. Moshou, E., S.F.Petue, L.G.Bachas, M.J.Madou, and S. Daunert, Novel

Artificial Muscle Material with Fast Electroactuation under Neutral pH

Conditions, Chem. Mat. 16, 2499-2502, 2004.

69. Chunlei Wang, Lili Taherabadi, Guangyao Jia, and Marc Madou, “C-MEMS for

the Manufacture of 3D Microbatteries,” Electrochemical and Solid State Letters,

7(11) (2004) A435-A438.

70. Jim Zoval and Marc J. Madou, Centrifuge Based Fluidic Platforms, Proceedings

of the IEEE on Biomedical Applications for MEMS and Microfluidics. Issue

Date: Jan 2004, Volume: 92 Issue:1 On page(s): 140 - 153

71. Kim, J.; Jang, S. H.; Jia, G.; Zoval, J. V.; Da Silva N. A. and Marc J. Madou,

Cell Lysis On a Microfluidic CD (Compact Disc) Lab On a Chip 4 (5): 516-522,

2004.

72. Chunlei Wang and Marc Madou, From MEMS to NEMS with Carbon,

Biosensors and Bioelectronics, 20 (10), (2005) 2181-2187.

73. Ma, K. S.; Zhou, H.; Zoval, J.; Madou, M., Detection of DNA Hybridization

using Adjacent Impedance Probing (AIP) Method. Journal of the Association for

Laboratory Automation, Volume 10, Issue 4, August 2005, Pages 219-224.

74. Régis Peytavi, Frédéric R. Raymond, Dominic Gagné, François J. Picard,

Guangyao Jia, Jim Zoval, Marc Madou, Karel Boissinot, Maurice Boissinot, Luc

Bissonnette, Marc Ouellette and Michel G. Bergeron. Microfluidic Device for

Rapid (<15 min) Automated Microarray Hybridization, Clinical Chemistry.

2005; 51:1836-1844.

75. Marc Madou, Jim Zoval, Guangyao Jia, Horacio Kido, Jitae Kim, and Nahui

Kim. Lab on a CD. Annual Review of Biomedical Engineering Vol. 8: 601-628

(Volume publication date August 2006). First published online as a Review in

Advance on May 2, 2006.

76. Wang, C.; Jia, G.; Taherabadi, L. and Madou, M. J. A Novel Method for the

Fabrication of High Aspect Ratio C-MEMS, IEEE Journal of

Microelectromechanical Systems 14(2) (2005) 348-358.

77. B. Y. Park, L. Taherabadi, C. Wang, J. Zoval, and M. J. Madou, Electrical

Properties and Shrinkage of Carbonized Photoresist Films and the Implications

for C-MEMS Devices in Conductive Media, J. Electrochem. Soc. 152, (2005)

J136-J143.

78. Benjamin Y. Park, Marc J. Madou, 3D electrode designs for flow-through

dielectrophoresis systems, Electrophoresis 2005, 26, 3745-3757.

79. J. 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. Mat. 4, 298-302, 2005.

80. Rothert, L. Millner, L. G. Puckett, S. K. Deo, M. J. Madou, and S. Daunert,

Whole Cell Reporter Gene-Based Biosensing Systems on a Compact Disc

Microfluidics Platform, Anal. Biochem. 342, 11-19, 2005.

81. G. Jia, K-S Ma, J. Kim, J.V. Zoval, R. Peytavi, M.G. Bergeron, M.J. Madou,

Dynamic Automated DNA Hybridization on a CD (compact disc) Fluidic

Platform, Sensors and Actuators B 114, 173-181, 2006.

82. Ma, K. S.; Zhou, H.; Zoval, J.; Madou, M., DNA hybridization detection by

label free versus impedance amplifying label with impedance spectroscopy.

Sensors and Actuators B-Chemical 2006, 114, (1), 58-64.

83. Park, B. Y., Paradiso, A., Kawabe, M., Madou, M. J. (2006). A Novel

Dielectrophoretic Oil Filter. Proceedings of the Institution of Mechanical

Engineers. Part D, Journal of Automobile Engineering, 220(4), 481-496.

84. E. A. Moschou, M. J. Madou, L. G. Bachas, and S. Daunert, Voltage-Switchable

Artificial Muscles Actuating at Near Neutral pH, Sens. Act. B., 115, 379-383,

2006.

85. Elizabeth A. Moschou, Adrianne D. Nicholson, Guangyao Jia, Jim V. Zoval,

Marc J. Madou, Leonidas G. Bachas, and Sylvia Daunert, Design and

Integration of Fractionation and Isolation Microfluidic Features on Centrifugal

Microfluidic Platforms for the Analysis of Biomolecules, Anal. Bioanal. Chem.

385, 596-605, 2006.

86. Benjamin Y. Park and Marc Madou, Design, Fabrication, and Initial Testing of a

Miniature PEM Fuel Cell with Micro-scale Pyrolyzed Carbon Fluidic Plates,

Journal of Power Sources 162, 369-379, 2006.

87. Han Xu, Valery V. Konovalov, Cristian I. Contescu, Stephen M. Jaffe, Marc

Madou, Water transport in a non-aqueous, polypyrrole electrochemical cell,

Sensors and Actuators B, 114, 248-253, 2006.

88. Han Xu, Chong Wang, Chunlei Wang, Jim Zoval, and Marc Madou, Polymer

Actuator Valves toward Controlled Drug Delivery Application, Biosensors and

Bioelectronics, Vol 21/11, (2006) 2094-2099.

89. Joshua Hyong-Seok Kim, Alia Marafie, Xi-Yu Jia, Jim V. Zoval, and Marc J.

Madou, Characterization of DNA Hybridization Kinetics in a Microfluidic Flow

Channel, Sensors and Actuators B 113 (2006) 281–289.

90. Kartikeya Malladi, Chunlei Wang, and Marc Madou, Microfabrication of

Suspended C-MEMS Structures by EB Writer and Pyrolysis, Carbon, 44(13),

(2006) 2602- 2607.

91. J. D. Ehrick, S. Bachas-Daunert, S. M. Stokes, E. A. Moschou, S. K. Deo, L. G.

Bachas, M. J. Madou and S. Daunert, Stimuli-Responsive Hydrogels Based on

Hinge-Motion Binding Proteins as Recognition Elements, Polymer Preprints

47(2), 1106-1107, 2006.

92. Galobardes, F., Wang, C., Madou, M. J. (2006). Investigation on the Solid

Electrolyte Interface Formed on Anodes for Li-ion Batteries Fabricated by

Carbon-Microelectromechanical System Technology. Diamond and Related

Materials, 15, 1930-1934.

93. Nicholson, A. D.; Moschou, E. A.; Jia, G.; Zoval, J.; Bachas, L. G.; Madou, M.

J., Zoval, J. and Daunert, S. Protein Chromatographic Analysis on Methacrylate-

Based Monolithic Columns Integrated on Compact Disk Microfluidic Platforms,

Analytical and Bioanalytical Chemistry, V. 385, N. 3, 2006, pp 596-605.

94. A. S. Watts, A. A. Urbas, E. Moschou, V. G. Gavalas, J. V. Zoval, M. Madou,

and L. G. Bachas, Centrifugal Microfluidics with Integrated Sensing Microdome

Optodes for Multi-Ion Detection, Anal. Chem., 79, 8046-8054 (2007).

95. Kido, H., Micic, M., Smith, D., Zoval, J., Norton, J., Madou, M. J. A Novel,

Compact Disc-like Centrifugal Microfluidics System for Cell Lysis and Sample

Homogenization. Colloids and Surfaces B: Biointerfaces. Accepted: August 25,

2007.

96. Han-Kuan A Tsai, Kuo-Sheng Ma, Chong Wang, Han Xu, Chunlei Wang, Jim

Zoval, Lawrence Kulinsky and Marc Madou, Development of Integrated

Protection for Miniaturized Implantable Controlled Drug Delivery System,

Smart Mater. Struct. 16, (2007) S295-S299.

97. Han-Kuan A. Tsai, Marc Madou, Microfabrication of Bilayer Polymer Actuator

Valves for Controlled Drug Delivery, Journal of the Association for Laboratory

Automation, Volume 12, Issue 5, October 2007, Pages 291-295

98. Nahui Kim, Catherine Dempsey, Chih-Jen Kuan, Jim Zoval, Eyleen O'Rourke

Gary Ruvkun, Marc Madou and Ji Sze. Gravity Force Transduced by the MEC-

4/MEC 10 DEG/ENaC Channel Modulates DAF-16/FoxO Activity in

Caenorhabditis elegans, Genetics 177: 835-45 2007.

99. Wang, C., Zaouk, R., Madou, M. J. Local chemical vapor deposition of carbon

nanofibers from photoresist. Carbon, 44, 3073-3077, 2006.

100. Nahui Kim, Catherine M. Dempsey, Jim V. Zoval, Ji-Ying Sze, and Marc

J. Madou, Automated microfluidic compact disc (CD) cultivation system of C.

elegans, Sensors and Actuators B: Chemical, 122 (2), (2007), 511-518.

101. Tsai, H. A., Ma, K., Wang, C., Xu, H., Wang, C., Zoval, J., Kulinsky, L.,

Madou, M. J. Development of Integrated Protection for Miniaturized

Implantable Controlled Drug Delivery System. Smart Mater. Struct., 16, S295-

S299, 2007.

102. Benjamin Y. Park, Rabih Zaouk, Chunlei Wang, Marc J. Madou, A Case

for Fractal Electrodes for Electrochemical Applications, J. Electrochem. Soc.,

154 (2) (2007) P1-P5.

103. Guangyao Jia, Jonathan Siegrist, Chengwu Deng, Jim V. Zoval, Gale

Stewart, Régis Peytavi, Ann Huletsky, Michel G. Bergeron, Marc J. Madou, A

Low-Cost, Disposable Card for Rapid Polymerase Chain Reaction, Colloids

Surf. B: Biointerfaces Special Edition, 58(1) (2007), 52-60.

104. G. Turon Teixidor, R. Gorkin, P. Tripathi, G. Bisht, M. Kulkarni, T.

Maiti, T. Battacharyya, J. Subramaniam, A. Sharma, B. Park, M. Madou,

Carbon-MEMS as a Substratum for Cell Growth, Journal of Biomedical

Materials, 3 (3), 034116, 2008.

105. R.A. Lambert, S. Das, M.J. Madou, S. Chakraborty, R.H. Rangel, Rapid

Macromolecular Synthesis in a Microfluidic Channel with an Oscillating Flap,

International Journal of Heat and Mass Transfer, Volume 51, Issues 17-18,

August 2008, Pages 4367-4378.

106. Hong-Seok Min, Benjamin Y Park, Lili Taherabadi, Chunlei Wang,

Yuting Yeh, Rabih Zaouk, Marc J. Madou, and Bruce Dunn, Fabrication and

properties of a carbon/polypyrrole three-dimensional microbattery Journal of

Power Sources, 2008, 178 (2), 795–800.

107. Jitae Kim, Horacio Kido, Roger H. Rangel, Marc J. Madou, Passive flow

switching valves on a centrifugal microfluidic platform, Sensors and Actuators

B: Chemical, Volume 128, Issue 2, 15 January 2008, Pages 613-621.

108. Chunlei Wang, Rabih Zaouk, Benjamin Park, and Marc Madou, Carbon

as a MEMS Material: Micro and Nano Fabrication of Pyrolyzed Photoresist

Carbon (invited review paper), International Journal of Manufacturing

Technology and Management, 2008, 13, 360-375.

109. Lin, P., Park, B. Y., Madou, M. J., Development and Characterization of

a Miniature PEM Fuel Cell Stack with Carbon Bipolar Plates. Journal of Power

Sources, 176(1), 207-214, 2008.

110. Xu, H., Malladi, K., Wang, C., Kulinsky, L., Song, M., Madou, M. J.

(2008). Carbon post-microarrays for glucose sensors. Biosensors and

Bioelectronics, 23, 1637-1644, 2008.

111. 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, Sensors & Transducers Journal,

Vol. 3, Special Issue, 25-36, 2008.

112. G. Turon Teixidor, R. Zaouk, B. Park, M. Madou, Fabrication and

characterization of three-dimensional carbon electrodes for lithium-ion batteries,

Journal of Power Sources, 183(2), 730-740, 2008.

113. X. Casadevall i Solvas, R.A. Lambert, L. Kulinsky, R.H. Rangel and

M.J. Madou, Au/PPy Actuators for Active Micromixing and Mass Transport

Enhancement, Micro and Nano Systems, Vol. 1, pp. 2-11, 2009.

114. Zahra Noroozi, Horacio Kido, Miodrag Micic, Hansheng Pan, Christian

Bartolome, Marko Princevac, Jim Zoval, and Marc Madou, Reciprocating flow-

based centrifugal microfluidics mixer Rev. Sci. Instrum. 80 075102 (2009).

115. Rouabah, H. A., Park, B. Y., Zaouk, R. B., Madou, M. J. and Green, N.

G. (2009) Producing fluid flow using 3D carbon electrodes - art. no. 012072.

ELECTROSTATICS 2007, 142. p. 12072.

116. D. Chakraborty, R. Gorkin, M. Madou, L. Kulinsky, S. Chakraborty,

Capillary Filling in Centrifugally Actuated Microfluidic Devices with

Dynamically Evolving Contact Line Motion, Journal of Applied Physics, vol.

105, pp. 084904 (1-10), 2009.

117. L. H. Skjolding, G. Turon Teixidor, J. Emnéus, L. Montelius, ”Negative

UV–NIL (NUV–NIL) – A mix-and-match NIL and UV strategy for realisation

of nano- and micrometre structures”, Microelectronic Engineering, Volume 86,

Issue 4-6 (April 2009), Pages: 654-656.

118. Chandra S. Sharma, Manish M. Kulkarni, Ashutosh Sharma, Marc

Madou, Synthesis of carbon xerogel particles and fractal-like structures

Chemical Engineering Science, Volume 64, Issue 7, 1 April 2009, Pages 1536-

1543

119. G. Turon Teixidor, B. Park, P. Mukherjee, Q. Kang, M. Madou,

Modeling Fractal Electrodes for Li-Ion Batteries, Electrochimica Acta, Volume

54, Issue 24, 1 October 2009, Pages 5928-5936.

120. J. Siegrist, R. Peytavi, M. Bergeron, and M. Madou, 2009, Microfluidics

for IVD Analysis: Triumphs and Hurdles of Centrifugal Platforms - Part 1:

Molecular Fundamentals, IVD Technology, 15 (November/December).

121. J. Siegrist, R. Peytavi, M. Bergeron, and M. Madou, 2010, Microfluidics

for IVD Analysis: Triumphs and Hurdles of Centrifugal Platforms - Part 2:

Centrifugal Microfluidics, IVD Technology, 16 (January/February).

122. J. Siegrist, R. Peytavi, M. Bergeron, and M. Madou, 2010, Microfluidics

for IVD Analysis: Triumphs and Hurdles of Centrifugal Platforms - Part 3: A

Vision for Tomorrow, IVD Technology DX Directions, (March).

123. J. Siegrist, R. Gorkin, L. Clime, E. Roy, R. Peytavi, H. Kido, M.

Bergeron, T. Veres, and M. Madou, 2010, Serial Siphon Valving for Centrifugal

Microfluidic Platforms, Microfluidics and Nanofluidics, 9, 55-63.

124. J. Siegrist, R. Gorkin, M. Bastien, G. Stewart, R. Peytavi, H. Kido, M.

Bergeron, and M. Madou, 2010, Validation of a Centrifugal Microfluidic

Sample Lysis and Homogenization Platform for Nucleic Acid Extraction with

Clinical Samples, Lab on a Chip, 10, 363-371.

125. J. Siegrist, M. Amasia, N. Singh, D. Banerjee, and M. Madou, 2010,

Numerical Modeling and Experimental Validation of Uniform Microchamber

Filling in Centrifugal Microfluidics, Lab on a Chip, 10, 876-886.

126. R. Gorkin, J. Park, J. Siegrist, M. Amasia, B. Lee, J. Park, J. Kim, H.

Kim, M. Madou, and Y. Cho, 2010, Centrifugal Microfluidics for Biomedical

Applications, Lab on a Chip, 10, 1758–1773.

127. Yun Wang, Liem Pham, Guilherme Porto Salerno de Vasconcellos, Marc

Madou, Fabrication and characterization of micro PEM fuel cells using

pyrolyzed carbon current collector plates, Journal of Power Sources, Volume

195, Issue 15, 1 August 2010, Pages 4796-4803.

128. Sharma CS, Katepalli H, Sharma A, Madou M. Fabrication and electrical

conductivity of suspended carbon nanofiber arrays. 1727-1732. Carbon,

December 2010.

129. Sharma CS, Sharma A, Madou M. Multiscale Carbon Structures

Fabricated by Direct MicroPatterning of Electrospun Mats of SU-8 Photoresist

Nanofibers, Langmuir 2010, 26(4),2218-2222.

130. Martinez-Duarte R, Gorkin III RA, Abi-Samra K, Madou MJ. The

integration of 3D carbon-electrode dielectrophoresis on a CD-like centrifugal

microfluidic platform. Lab on a Chip 2010 (April);10(8):1030-43.

131. R. Gorkin, L. Clime, M. Madou, H. Kido. Pneumatic Pumping in

Centrifugal Microfluidic Platforms – Journal of Microfluidics and Nanofluidics,

2010 (February), Volume 9, Issue 1, p 541-549.

132. J. Siegrist, T. Kazarian, C. Ensor, S. Joel, M. Madou, P. Wang, and S.

Daunert, 2010, Continuous Glucose Sensor Using Novel Genetically-Engineered

Binding Polypeptides Towards In vivo Applications, Sensors and Actuators B:

Chemical, 149, 51-58.

133. M. C. Jaramillo, E. Torrents, R. Martinez-Duarte, M. Madou and A.

Juarez. On-line separation of bacterial cells by carbon-electrode

dielectrophoresis. Electrophoresis, September, 2010.

134. M. Amasia and M. Madou, “Large-volume Centrifugal microfluidic

device for Blood Plasma Separation,” Bioanalysis, October 2010;2(10):1701-10.

135. Rammohan A, Dwivedi PK, Martinez-Duarte R, Katepalli H, Madou MJ,

Sharma A. One-step maskless grayscale lithography for the fabrication of 3-

dimensional structures in SU-8. Sensors and Actuators B: Chemical, 31 March

2011; 153(1): 125-134.

136. Casadevall i Solvas X, Lambert RA, Kulinsky L, Rangel RH, Madou MJ.

Micromixing and flow manipulation with polymer microactuators. Microfluid

Nanofluid DOI 10.1007/s10404-011-0806-5, April 2011.

137. Martinez-Duarte R, Renaud P, Madou MJ. A novel approach to

dielectrophoresis using carbon electrodes. Electrophoresis, pp.2385-2392, Jul.

2011.

138. Chakraborty D, Madou M, Chakraborty, S. Anomalous mixing behaviour

in rotationally actuated microfluidic devices. Lab on a chip. July 2011.

139. Noroozi Z, Kido H, Peytavi R, Nakajima-Sasaki R, Jasinskas A, Micic

M, Felgner PL, Madou MJ. A multiplexed immunoassay system based upon

reciprocating centrifugal microfluidics. Rev. Sci. Instrum. 82, 064303, June

2011.

140. Abi-Samra K, Clime L, Kong L, Gorkin R, Kim TH, Cho YK, Madou M.

Thermo-pneumatic pumping in centrifugal microfluidic platforms. Microfluidics

and Nanofluidics. June 2011.

141. Bisht GB, Canton G, Mirsepassi A, Kulinsky L, Oh S, Dunn-Rankin D,

Madou MJ. Controlled Continuous Patterning of Polymeric Nanofibers on 3D

Substrates Using Low-Voltage Near-Field Electrospinning, Nanoletters, March

2011; 11 (4).

142. Heo JI, Shim DS, Turon Teixidor G, Oh S, Shin H, Madou MJ. Carbon

Interdigitated Array Nanoelectrodes for Electrochemical Applications, Journal

of the Electrochemical Society, January 2011; 158 (3): J76-J80.

143. Abi-Samra K, Hanson R, Madou M, Gorkin R. Infrared controlled waxes

for liquid handling and storage on a CD-microfluidic platform. Lab on a Chip,

February 2011; 11(4): 723-726.

144. Chang-hsiu Chen, Anna Torrents, Lawrence Kulinsky, Richard D.

Nelson, Marc J. Madou, Lorenzo Valdevit, John C. LaRue. Mechanical

Characterizations of Cast Poly(3,4-ethylenedioxythiophene) :

Poly(styrenesulfonate)/Polyvinyl Alcohol thin films. Synthetic Metals, Accepted

for publication August 21, 2011.

145. Robert Gorkin, Salar Soroori, William Southard, Liviu Clime, Lawrence

Kulinsky, Horacio Kido and Marc Madou. Suction-Enhanced Siphon Valves for

Centrifugal Microfluidic Platforms. Microfluidics and Nanofluidics, September

12, 2011.

146. Noroozi Z, Kido H, and Madou MJ. Electrolysis-Induced Pneumatic

Pressure for Control of Liquids in a Centrifugal System. Journal of The

Electrochemical Society. 2011. Accepted for publication.

PATENTS, PATENT APPLICATIONS AND SOME SELECTED

DISCLOSURES

Patents

1. Etching method for producing an electrochemical cell in a crystalline substrate,

inventors Holland, Christopher E., Westerberg, Eugene R., Madou, Marc J. and

Otagawa, Takaaki, Patent 4765864 issued on August 23, 1988, Assignee SRI

International.

2. Electrochemical concentration detector, inventors Ross, Pepi, Madou, Marc J.,

Reyes, Zoila, Jensen, Joel F., Wing, Sharon W. and Rimer, Virginia G., Patent

4795542 issued on January 3, 1989, Assignee SRI International.

3. Gas detection method and apparatus using chemisorption and/or physisorption,

inventors Madou, Marc J, Sher Arden and Spindt Christopher J., Patent 4795968

issued on January 3, 1989, Assignee SRI International.

4. Fast response time microsensors for gaseous and vaporous species, inventors

Madou, Marc J. and Otagawa, Takaaki, Patent issued on March 14, 1989,

Assignee SRI International

5. Solid compositions for fuel cells, sensors and catalysts, inventors Madou, Marc

J.Otagawa, Takaaki and Sher, Arden, Patent 4851303 issued on July 25, 1989,

Assignee SRI International.

6. Capacitive gas detector having a solid rare earth fluoride dielectric, inventors

Madou Marc, Sher Arden and Spindt Christopher J., Patent issued on September

5, 1989, Assignee SRI International.

7. Microelectrochemical sensor and sensor array, inventors Madou, Marc J. and

Otagawa, Takaaki, Patent issued on October 17, 1989, Assignee was SRI

International.

8. Surface type microelectronic gas and vapor sensor, inventors Madou, Marc J.

and Otagawa, Takaaki, Patent issued on February 13, 1990, Assignee SRI

International.

9. Solid compositions for fuel cell electrolytes, inventors Madou, Marc J.,

Otagawa, Takaaki and Sher, Arden, Patent 4948680 issued on August 14, 1990,

Assignee SRI International.

10. Composite polymers of polyaniline with metal phthalocyanine and polyaniline

with organic sulfonic acid and nafion, inventors Madou, Marc J. and Otagawa,

Takaaki, Patent issued on November 27, 1990, Assignee Osaka Gas Company

Limited.

11. Permanently doped polyaniline and method thereof, inventors Madou, Marc J.

and Otagawa, Takaaki, Patent 5002700 issued on March 26, 1991, Assignee

Osaka Gas Company Limited.

12. Method of forming a plurality of solder connections, inventors Madou, Marc J.

and Gaisford, Scott, Patent issued on October 15, 1991. Assignee

13. Solid compositions for fuel cells, sensors and catalysts, inventors Madou, Marc

J., Otagawa, Takaaki and Sher, Arden Patent 5134042 issued on July 28, 1992,

Assignee was SRI International.

14. Tetrasulfonated metal phthalocyanine doped electrically conducting

electrochromic poly(dithiophene) polymers , inventors Madou, Marc J., Narang,

Subhash C., Otagawa, Takaaki and Wing, Sharon, Patent 5151224 Issued on

September 29, 1992, Assignee Osaka Gas Company Limited.

15. Multi-analyte sensing electrolytic cell, inventors Joseph, Jose P. and Madou,

Marc J., Patent 5183549 issued February 2, 1993, Assignee CommTech

International Management Corporation.

16. Permanently doped polyaniline and method thereof, inventors Madou, Marc J.

and Otagawa, Takaaki, Patent 5187034 Issued on February 16, 1993, Assignee

Osaka Gas Company Limited.

17. Three-dimensional microstructure as a substrate for a battery electrode,

inventors Jina Arvind, N., Madou Marc, J., Otagawa Takaaki, Patent 5294505

issued on March 15, 1994, Assignee Osaka Gas Company Limited.

18. Microsensors for gaseous and vaporous species, inventors Tierney, Michael J.,

Jina, Arvind, Joseph, Jose and Madou, Marc, Patent 5304293 issued on April 19,

1994, Assignee Teknekron Corporation (Incline Village, NV).

19. Micro-electrochemical valves and method, inventors Madou Marc, J., Tierney

Michael, J., Patent 5368704 issued November 29, 1994, Assignee:Teknekron

Corporation (Incline Village, NV).

20. Photolithographic and electron beam lithographic fabrication of micron and

submicron three-dimensional arrays of electronically conductive polymers,

inventors Otagawa, Takaaki, Madou, Marc J., Wachsman, Leonor A., Patent

5403680 issued on April 4, 1995, Assignee Osaka Gas Company, Ltd.

21. Dual stage microvalve and method of use, inventors Madou, Marc and S.

Daunert, Patent 6663615 issued on December 16, 2003, Assignee OSU.

22. Microfluidic devices and manfacture thereof, inventor Madou, Marc J., Patent

6790599 issued on September 14, 2004, Assignee Microbionics.

23. Electrochemical microsensor package, Crumly, William F. and Madou, Marc J.

Patent 6849168 issued on February 1, 2005, Assignee The Regents of the

University of California (Oakland, CA).

24. Method of making electrochemical detectors based on iridium oxide, inventors

Madou, Marc and J.Yao, Sheng, Patent 6863792 issued on March 8, 2005,

Assignee OSU

25. Artificial muscle hydrogel blends reversibly electroactuated near neutral pH,

implantable actuating devices, and methods using the same, inventors Daunert,

Sylvia Peteu, Serban F., Bachas, Leonidas G., Madou, Marc J. and Moschou,

Elissavet, Patent 7482381 issued on January 27, 2009, Assignee The Regents of

the University of California (Oakland, CA).

26. Surface and composition enhancements to high aspect ratio C-MEMS,

inventors Madou Marc, J., Wang Chunlei, Taherabadi Lili, Park Benjamin and

Zaouk Rabih, Patent issued on May 19, 2009, The Regents of the University of

California (Oakland, CA).

27. Fabrication of suspended carbon micro and nanoscale structures, inventors

Wang Chunlei, Malladi Kartikeya, Zaouk Rabih, B. and Madou Marc, J., Patent

7682659 issued March 23, 2010, Assignee The Regents of the University

of California (Oakland, CA).

Active Patents Applications

1. 2010-036 & 2010-234, US Serial#61/252,917 INTEGRATED CENTRIFUGAL,

MICROFLUIDIC SYSTEM FOR NUCLEIC ACID SAMPLE

PREPARATION, AMPLIFICATION, AND DETECTION

2. 2009-750, US Serial#61/263,962 METHODDS AND PROCESS FOR THE

BATCH FABRICATION OF MICRO AND NANO MOLDS IN CARBON

3. 2008-698, US Serial#61/067,709 FABRICATION OF MINIATURE BMG

PARTS AND MOLDS USING CARBON MOLDS: BMG and C-MEMS

4. 2008-326, US Serial#12/529,199 SERIAL SIPHON VALVES FOR FLUIDIC

OR MICROFLUIDIC DEVICES

5. 2007-276, US Serial#11/624,967 CARBON ELECTRODES FOR

ELECTROCHEMICAL APPLICATIONS

6. 2006-719, US Serial #11/837,286 ELECTRODEPOSITION OF POLYMER

FILM AS A THIN FILM POLYMER ELECTROLYTE FOR 3D LITHIUM

ION BATTERIES

7. 2006-420, US Serial#11/678,503 MINIATURE FUEL CELLS COMPRISED

OF MINIATURE CARBON FLUIDIC PLATES

8. 2005-168, US Patent #7,682,659 FABRICATION OF SUSPENDED CARBON

MICRO AND NANOSCALE STRUCTURES

9. 2005-108, US Serial #11/816,746 FLOW SWITCHING ON A MULTI-

STRUCTURED MICROFLUIDIC CD (COMPACT DISC) USING CORIOLIS

FORCE

10. 2004-652 US Serial # 11/816,843 MICROFLUIDIC VALVE FOR LIQUIDS

11. 2004-135 US Serial # 11/057,389 HIGH ASPECT C-MEMS ARCHITECTURE

GRANTS AND CONTRACTS

Current And Pending Grants And Contracts

1. "NIRT: C-MEMS/C-NEMS for Miniature Biofuels Cells", PI, National Science

Foundation-NIRT, $1,000,000, 7/1/07-6/30/10.

2. “CD Based Molecular Diagnostics”, Nacional Institutes of Health, Co-PI;

Michel Bergeron, PI, Centre Hospitalier Universitaire De Quebec (Chuq)

(Canada), $602,847, 9/01/04-9/30/09.

3. “A Compact Centrifugal Microfluidics Based Pathogen Analyzer”, PI, Nanogen

Inc., $60,000, 3/01/05-2/28/08.

4. “IRES: U.S.-India Fast DNA Hybridization in Microfluidic Platforms”, PI,

Nacional Science Foundation, $105,000, 9/15/05-8/31/08.

5. “3D Dielectrophoresis with C-MEMS: Design, Simulation And

Implementation”, PI, UC Mexus, $17,301, 9/01/06-2/29/08.

6. “Microfluidic System for Point of Care Diagnosis of GBS”, Co-PI; Michel

Bergeron, PI, Nacional Institutes of Health, TOTAL: $ $ 2, 499. 995; THIS

PROJECT: $604, 035, 9/1/04-9/1/07.

7. MF3, DARPA, Co-PI, $90,000.

8. Predoctoral Fellowship for Zarah Noorozi, National Science Foundation, PI,

$30,000,

9. “Collaborative Research: Extended Life Implantable Biosensor Platform”, PI,

National Science Foundation, PI, $450,000, 7/1/08-6/30/11, pending.

10. Genome Canada, pending.

Past Grants And Contracts (1999-2007)

1. "Test Bed and Feasibility Phase for Disposable Blood Gas and Blood Electrolyte

Sensors", PI, Microbionics, Inc., $306,000, 8/1/98-10/31/99.

2. "Novel Manufacturing Options for the LabCD", Gamera Bioscience, $56,000,

8/1/98-7/31/99.

3. "Search for H2O Sensing Films and Study of Film Stability", NASA-Ames,

$32,000, 01/01/99-12/31/99.

4. "Electronic Nose for Analysis of The Light Hydrocarbons", PI, Aircraft Braking

Systems Co., $59,300, 05/01/99-07/01/99.

5. "Novel Manufacturing Options for the LabCD", PI, Gamera Bioscience,

$56,000, 8/1/98-7/31/99.

6. "Operational CO2 Sensors Integrated in Polychip’s Telemetric Pill", Polychip

Inc. $237,000, 5/1/97-4/1/99.

7. "Miniaturization Methodologies in Biomedical and Chemical Sensor

Applications at NASA", PI, NASA Ames, $178,000, 01/01/98 - 12/31/00.

8. "The Alpha-Mos /OSU/NASA Test Bed and Feasibility Study for a Hybrid

Electronic Nose/Gas Chromatograph", Alpha-Mos Corp. $106,000, 5/1/98-

4/30/00.

9. "Novel Sensors R&D Leading to Curriculum Development", National Science

Foundation-CRCD, $500,000, 12/01/98-11/30/01.

10. “Biomimetic Detection Schemes on a Microfluidic Platform (LabCD)”, PI,

NASA, $839,537, 8/1/99-7/15/03.

11. “Responsive Drug Delivery Systems: ChipRx”, PI, TAF-State of Ohio,

$500,000, 10/1/00-3/31/03.

12. “Fabrication of C-MEMS Rotating Microsample System”, PI, BIOMEC, Inc.,

$17,000, 9/1/02-2/28/03.

13. “C-MEMS”, PI, BIOMEC, $17,000, 6/1/03 –12/31/03.

14. “New Methods for 3D Lithography of Micro/Nanoelectronics”, PI, UC

Discovery (with Medconx, Inc.), $30,686, 9/3/03-9/2/04.

15. “New Methods for 3D Lithography of Micro/Nanoelectronics”, PI, Medconx,

Inc. (matching funds for UC Discovery), $39,989, 9/3/03-9/2/04.

16. “Vapor Valves”, PI, The Aerospace Corporation, $10,000, 8/23/04-11/22/04.

17. "Responsive Drug Delivery Systems", ChipRx, Co-PI; S. Daunert, PI; Kentucky

Science and Technology Center, R&D Voucher, $100,000, 12/1/02-11/30/04.

18. “Automated Miacrofluidic CD for Gene Expression Study in Space”, PI,

National Aeronautics and Space Administration, $48,000, 7/1/04-11/30/04.

19. “Artificial Muscle”, PI, UCI Set-up Fund, $50,000, 6/1/03-6/31/04.

20. "Active DNA Arrays and Nanomanipulator", PI, UCI Set-up Fund, $50,000,

6/1/03-6/31/04.

21. “Automated Microfluidic CD for Gene Expression Study in Space”, PI, UC

Santa Cruz, $197,994, 7/01/04-6/30/06.

22. "Bio-Inspired Materials for Sensing and Actuation in Biomedical Applications",

Co-PI; S. Daunert, PI, NIH, $357,693, 09/30/03-09/29/06.

23. "Modified Photoproteins as Labels and Molecular Switches in Bioanalysis", Co-

PI: S. Daunert, PI, National Institutes of Health, $1,012,580, 4/1/04-3/31/07.

24. “Sensors: C-MEMS Based Microbattery Arrays for Miniature Sensors”, PI,

Nacional Science Foundation, $375,000, 9/1/04-8/31/07.

25. “Sample Preparation and Molecular Diagnostics on a CD”, Co-PI; Michel

Bergeron, PI, Genome Canada, TOTAL: $ 11,437,602; THIS PROJECT:

$1,995,678, 9/1/04-9/1/07.