Publications | Conferences | Abstracts | Books | Patents | Grants | Presentations | Newspaper Articles


  1. A. Mardegan, M. Cettolin, R. Kamath, V. Vascotto, A. M. Stortini, P. Scopece, M. Madou, L. M. Moretto. "Speciation of Trace Levels of Chromium with Bismuth Modified Pyrolyzed Photoresist Carbon Electrodes". Electroanalysis. 2014. Accepted for publication.
  2. L. Kong, K. Parate, K. Abi-Samra, M. Madou. "Multifunctional wax valves for liquid handling and incubation on a microfluidic CD". Microfluidics and Nanofluidics. Sep 2014. Accepted for Publication.
  3. M. Silvestrini, A. Mardegan, R. Kamath, M. Madou, L. M. Moretto, S. Passamonti, P. Scopece, and P. Ugo, “Pyrolyzed Photoresist Carbon Electrodes in Aprotic Solvent: Bilirubin Electrochemistry and Interaction with Electrogenerated Superoxide,” Electrochim. Acta, Sep. 2014.
  4. L. Amato, A. Heiskanen, C. Caviglia, F. Shah, K. Zór, M. Skolimowski, M. Madou, L. Gammelgaard, R. Hansen, E. G. Seiz, M. Ramos, T. R. Moreno, A. Martínez-Serrano, S. S. Keller, and J. Emnéus, “Pyrolysed 3D-Carbon Scaffolds Induce Spontaneous Differentiation of Human Neural Stem Cells and Facilitate Real-Time Dopamine Detection,” Adv. Funct. Mater., p. n/a–n/a, Sep. 2014.
  5. M. M. Aeinehvand, F. Ibrahim, S. W. Harun, I. Djordjevic, S. Hosseini, H. A. Rothan, R. Yusof, and M. J. Madou, “Biosensing enhancement of dengue virus using microballoon mixers on centrifugal microfluidic platforms.,” Biosens. Bioelectron., Sep. 2014.
  6. A. 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 Actuators B Chem., vol. 204, pp. 149–158, Dec. 2014.
  7. Kamath, Rahul, and Marc J. Madou. "Selective Detection of Dopamine against Ascorbic Acid Interference Using 3D Carbon Interdigitated Electrode Arrays."ECS Transactions 61.7 (2014): 65-73.
  8. S. 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,” J. Anal. Appl. Pyrolysis, vol. 108, pp. 12–18, Jul. 2014.
  9. D. 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.
  10. Holmberg, Sunshine; Perebikovsky, Alexandra; Kulinsky, Lawrence; Madou, Marc. 2014. "3-D Micro and Nano Technologies for Improvements in Electrochemical Power Devices." Micromachines 5, no. 2: 171-203.
  11. Rahul R. Kamath and Marc J. Madou. “Three-Dimensional Carbon Interdigitated Electrode Arrays for Redox-Amplification.” Analytical Chemistry ASAP. Feb. 24, 2014.
  12. S. Hugo, K. Land, M. Madou, and H. Kido, “A centrifugal microfluidic platform for point-of-care diagnostic applications,” S. Afr. J. Sci., vol. 110, no. January/February 2014, pp. 1–7, 2014.
  13. G. 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 N. Y., vol. 71, pp. 338–342, May 2014.
  14. 2013

  15. Victor H. Perez-GonzalezVinh HoLawrence Kulinsky, Marc MadouSergio O. Martinez-Chapa. PPyDEP: A New approach to Microparticle Manipulation Employing Polymer-based Electrodes. Lab on a Chip. 2013, 13, 4642-4652.  
  16. Tzer Hwai Gilbert ThioFatimah IbrahimWisam Al-Faqheri, Jacob MoebiusNoor Sakinah KhalidNorhayati Soin, Maria Kahar Bador Abdul Kahal, and Marc Madou. Push-Pull Microfluidics on a Multi-level 3D CD. Lab on a Chip, 2013, 13, 3199-3209.
  17. Andrea Mardegan, Rahul Kamath, Swati Sharma, Paolo Scopece, Paolo Ugo, Marc Madou. Optimization of Carbon Electrodes Derived from Epoxy-based Photoresist. Journal of The Electrochemical Society, volume 160, issue 8, B132-B137. June, 2013.
  18. Tae-Hyeong Kim, Hyundoo Hwang, Robert Gorkin, Marc Madou, Yoon-Kyoung Cho. Geometry effects on blood separation rate on a rotating disc. Sensors and Actuators B 178 (2013) 648–655, March, 2013.
  19. Siseon Leea, Mary Amasia, Marc Madou, Robert J. Mitchell. Serum complement enhances the responses of genotoxin- and
    oxidative stress-sensitive Escherichia coli bioreporters, Biosensors and Bioelectronics 46 (2013) 175–182.
  20. M. Amasia, S.-W. Kang, D. Banerjee, and M. Madou, “Experimental validation of numerical study on thermoelectric-based heating in an integrated centrifugal microfluidic platform for polymerase chain reaction amplification.,” Biomicrofluidics, vol. 7, no. 1, p. 14106, Jan. 2013.
  21. 2012

  22. Bisht GS., Holmberg S., Kulinsky L., Madou MJ. A Diffusion-Free Mediator based Miniature Biofuel Cell Anode fabricated on a Carbon-MEMS Electrode. Langmuir, 2012.
  23. Thio G., Soroori S., Ibrahim F., Alfaqheri W., Soin N., Kulinsky L., Madou MJ. Theoretical Development and Critical Analysis of Burst Frequency Equations for Passive Valves on Centrifugal Microfluidic Platforms. Medical & Biological Engineering & Computing, Submitted 2012.
  24. Sharma S and Madou M. Micro and nano patterning of carbon electrodes for bioMEMS. Bioinspired, Biomimetic and Nanobiomaterials, 2012, 1 (4), 252–265.
  25. Bisht G, Nesterenko S, Kulinsky L, Madou M. 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. May 11, 2012.
  26. Sharma S and Madou M, A new approach to gas sensing with nanotechnology. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, vol. 370, no. 1967, pp. 2448-2473, Apr. 2012.
  27. *Bisht GS, *Nesterenko S, Kulinsky L, Madou M. 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, 2012 (Accepted).
  28. Bisht GS, Nesterenko S, Liu HZ, Canton G, Kulinsky L, Madou M. Controlled Micropatterning of Continuous Conducting Nanofiber Arrays Using Low-Voltage Near-Field Electrospinning. International Journal of Automation Technology, 2012 (Accepted).
  29. Chen CH, LaRue J, Nelson RD, Kulinsky L, and Madou MJ. Electrical Conductivity of Polymer Blends of Poly(3,4-ethylenedioxythiophene) : Poly(styrenesulfonate) : N-Methyl-2-pyrrolidinone and Polyvinyl Alcohol. Journal of Applied Polymer Science. 2012.
  30. Sharma S, Sharma A, Cho YK, and Madou M. Increased Graphitization in Electrospun Single Suspended Carbon Nanowires Integrated with Carbon-MEMS and Carbon-NEMS Platforms. ACS Applied Materials and Interfaces, 2012, 4, 34-39.
  31. Cito S, Ahn Y, Pallares J, Martinez Duarte R, Chen Z, Madou M, and Katakis I. Visualization and measurement of capillary-driven blood flow using spectral domain optical coherence tomography. Microfluidics and Nanofluidics. Feb. 2012.
  32. 2011

  33. Amasia M, Cozzens M, and Madou M. Centrifugal microfluidic platform for rapid PCR amplification using integrated thermoelectric heating and ice-valving. Sensors and Actuators B: Chemical. Dec 2011.
  34. Maitra T, Sharma S, Srivastava A, Cho YK, Madou M, and Sharma A. Improved graphitization and electrical conductivity of suspended carbon nanofbers derived from carbon nanotube/polyacrylonitrile composites by directed electrospinning. Carbon, 2012, 50 (5), 1753-1761.
  35. Martinez-Duarte R, Renaud P, and Madou MJ. A novel approach to dielectrophoresis using carbon electrodes. Electrophoresis, pp. 2385-2392, Jul. 2011. (cover)
  36. 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. 158 (11) P130-P135.
  37. Chen CH, Torrents A, Kulinsky L, Nelson RD, Madou MJ, Valdevit L, LaRue JC. Mechanical Characterizations of Cast Poly(3,4-ethylenedioxythiophene) : Poly(styrenesulfonate)/Polyvinyl Alcohol thin films. Synthetic Metals, 2011. 161 (21-22): pp 2259-2267.
  38. Gorkin R, Soroori S, Southard W, Clime L, Kulinsky L, Kido H, and Madou MJ. Suction-Enhanced Siphon Valves for Centrifugal Microfluidic Platforms. Microfluidics and Nanofluidics, Sep. 2011.
  39. Chakraborty D, Madou M, Chakraborty, S. Anomalous mixing behaviour in rotationally actuated microfluidic devices. Lab on a chip. July 2011.
  40. 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 (2011).
  41. Canton G, Riccò R, Marinello F, Carmignato, Enrichi F. Modified Stöber synthesis of highly luminescent dye-doped silica nanoparticles. Journal of Nanoparticles Reseach. May 2011.
  42. 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.
  43. 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, 2011; 11 (4): pp 1831–1837..
  44. 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, 2011; 158 (3): J76-J80.
  45. Casadevall i Solvas X, a Lambert R, Kulinsky L, Rangel RH, Madou MJ; Micromixing and Flow Manipulation with Polymer Actuators, Microfluidics and Nanofluidics, Apr. 2011.
  46. 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.
  47. 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 2011; 11(4): 723-726.
  48. 2010

  49. Wang Y, Pham L, de Vasconcellos GPS, Madou MJ. Fabrication and Characterization of Micro PEM Fuel Cells Using Pyrolyzed Carbon Current Collector Plates. Journal of Power Sources 2010; 195(15): 4796-4803.
  50. Sharma CS, Katepalli H, Sharma A, Madou M. Fabrication and electrical conductivity of suspended carbon nanofiber arrays. 1727-1732. Carbon, December 2010.
  51. Amasia M, Madou M. Large-Volume Centrifugal Microfluidic Device for Blood Plasma Separation. Bioanalysis 2010; 2(10), 1701–1710.
  52. 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.
  53. Siegrist J, Peytavi R, Bergeron M, Madou M. Microfluidics for IVD Analysis: Triumphs and Hurdles of Centrifugal Platforms - Part 3: A Vision for Tomorrow. IVD Technology DX Directions 2010.
  54. Siegrist J, Peytavi R, Bergeron M, Madou M. Microfluidics for IVD Analysis: Triumphs and Hurdles of Centrifugal Platforms - Part 2: Centrifugal Microfluidics. IVD Technology 2010.
  55. Siegrist J, Kazarian T, Ensor C, Joel S, Madou M, Wang P, et al. Continuous glucose sensor using novel genetically engineered binding polypeptides towards in vivo applications. Sensors and Actuators B: Chemical 2010;149(1):51-58.
  56. Siegrist J, Gorkin R, Clime L, Roy E, Peytavi R, Kido H, et al. Serial siphon valving for centrifugal microfluidic platforms. Microfluidics and Nanofluidics 2010; 9(1): 55-63.
  57. Siegrist J, Gorkin R, Bastien M, Stewart G, Peytavi R, Kido H, et al. Validation of a centrifugal microfluidic sample lysis and homogenization platform for nucleic acid extraction with clinical samples. Lab on a Chip 2010;10(3):363-71.
  58. Siegrist J, Amasia M, Singh N, Banerjee D, Madou M. Numerical modeling and experimental validation of uniform microchamber filling in centrifugal microfluidics. Lab on a Chip 2010;10(7):876-86.
  59. Siegrist J, Amasia M, Madou M. Fast-iteration prototyping and bonding of complex plastic microfluidic devices. Chips & Tips 2010.
  60. 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;10(8):1030-43.
  61. Gorkin R, Park J, Siegrist J, Amasia M, Lee BS, Park J-M, et al. Centrifugal microfluidics for biomedical applications. Lab on a Chip 2010;10(14):1758-73.
  62. Gorkin R, Clime L, Madou M, Kido H. Pneumatic pumping in centrifugal microfluidic platforms. Microfluidics and Nanofluidics 2010;9(2):541-49.
  63. 2009

  64. Chakraborty D, Gorkin R, Madou M, Kulinsky L, Chakraborty S. Capillary Filling in Centrifugally Actuated Microfluidic Devices with Dynamically Evolving Contact Line Motion. 105 [8], 084904-13. Journal of Applied Physics 2009.
  65. Tsai H-K A, Moschou E A, Kulinsky L, Daunert S, Madou M. Integrating Biosensors and Drug Delivery: A Step Closer Toward Scalable Responsive Drug Delivery Systems. 21, 656-660. Advanced Materials 2009.
  66. Turon Teixidor G, Park BY, Mukherjee PP, Kang Q, Madou MJ. Modeling fractal electrodes for Li-ion batteries. Electrochimica Acta 2009;54(24):5928-36.
  67. Skjolding LHD, Teixidor GT, Emnéus J, Montelius L. Negative UV-NIL (NUV-NIL) - A mix-and-match NIL and UV strategy for realisation of nano- and micrometre structures. Microelectronic Engineering 2009;86(4-6):654-56.
  68. Sharma CS, Kulkarni MM, Sharma A, Madou M. Synthesis of Carbon Xerogel Particles and Fractal-like Structures, Chem. Eng. Sci. 2009, 64, 1536-1543.
  69. Siegrist J, Peytavi R, Bergeron M, Madou M. Microfluidics for IVD Analysis: Triumphs and Hurdles of Centrifugal Platforms - Part 1: Molecular Fundamentals. IVD Technology, 2009.
  70. Noroozi Z, Kido H, Micic M, Pan H, Bartolome C, Princevac M, et al. Reciprocating flow-based centrifugal microfluidics mixer. Review of Scientific Instruments 2009;80:075102.
  71. Martinez-Duarte R, Madou M, Kumar G, Schroers J. A novel method for amorphous metal micromolding using Carbon MEMS. 188-191 (IEEE, 2009).
  72. i Solvas X, Lambert R, Kulinsky L, Rangel R, Madou M. Au/PPy actuators for active micromixing and mass transport enhancement. Micro and Nanosystems 2009;1:2-11.
  73. 2008

  74. Hong-Seok M , Park BY, Taherabadi L, Wang C; Yuting Y; Zaouk R, Madou MJ., Dunn, Bruce. Fabrication and Properties of a Carbon/Polypyrrole Three-Dimensional Microbattery. Journal of Power Sources 2008; 178(2): 795-800.
  75. Kim J, Kido H, Rangel RH, Madou MJ. Passive Flow Switching Valves on a Centrifugal Microfluidic Platform. Sensors and Actuators B: Chemical 2008; 128(2): 613-21.
  76. Xu H, Malladi K, Wang C, Kulinsky L, Song M, Madou M. Carbon post-microarrays for glucose sensors. Biosensors and Bioelectronics 2008;23(11):1637-44.
  77. Turon Teixidor G, Zaouk R, Park B, Madou M. Fabrication and characterization of three-dimensional carbon electrodes for lithium-ion batteries. Journal of Power Sources 2008;183(2):730-40.
  78. Turon Teixidor G, Gorkin R, Tripathi P, Bisht G, Kulkarni M, Maiti T, et al. Carbon-MEMS as a substratum for cell growth. Journal of Biomedical Materials 2008;3(034116 ).
  79. Martinez-Duarte R, Cito S, Collado-Arredondo E, Martinez S, Madou M. Fluido-dynamic and Electromagnetic Characterization of 3D Carbon Dielectrophoresis with Finite Element Analysis. sensors and Trasducer Journal 2008;3:25-36.
  80. Lin P, Park B, Madou M. Development and characterization of a miniature PEM fuel cell stack with carbon bipolar plates. Journal of Power Sources 2008;176(1):207-14.
  81. Lambert R, Das S, Madou M, Chakraborty S, Rangel R. Rapid macromolecular synthesis in a microfluidic channel with an oscillating flap. International Journal of Heat and Mass Transfer 2008;51(17-18):4367-78.
  82. 2007

  83. Kido H, Micic M, Smith D, Zoval J, Norton J, Madou MJ. A Novel, Compact Disk-Like Centrifugal Microfluidics System for Cell Lysis and Sample Homogenization. Colloids and Surfaces B: Biointerfaces 2007; 58(1): 44-51.
  84. Zoval J, Madou M. Centrifuge based fluidic platforms. BioMEMS and Biomedical Nanotechnology 2007:329-64.
  85. Watts A, Urbas A, Moschou E, Gavalas V, Zoval J, Madou M, et al. Centrifugal microfluidics with integrated sensing microdome optodes for multiion detection. Anal. Chem 2007;79(21):8046-54.
  86. Tsai H, Ma K, Wang C, Xu H, Zoval J, Kulinsky L, et al. Development of Integrated Protection for Miniaturized Implantable Controlled Drug Delivery System. Smart Materials and Structures 2007;16:S295-S99.
  87. Park B, Zaouk R, Wang C, Madou M. A case for fractal electrodes in electrochemical applications. Journal of the Electrochemical Society 2007;154(P1).
  88. Kim N, Dempsey C, Zoval J, Sze J, Madou M. Automated microfluidic compact disc (CD) cultivation system of Caenorhabditis elegans. Sensors and Actuators B: Chemical 2007;122(2):511-18.
  89. Kim N, Dempsey C, Kuan C, Zoval J, O'Rourke E, Ruvkun G, et al. Gravity force transduced by the MEC-4/MEC-10 DEG/ENaC channel modulates DAF-16/FoxO activity in Caenorhabditis elegans. Genetics 2007;177(2):835.
  90. Jia G, Siegrist J, Deng C, Zoval J, Stewart G, Peytavi R, et al. A low-cost, disposable card for rapid polymerase chain reaction. Colloids and Surfaces B: Biointerfaces 2007;58(1):52-60.
  91. Das A, Mukherjee R, Katiyer V, Kulkarni M, Ghatak A, Sharma A. Generation of Sub-micrometer-scale Patterns by Successive Miniaturization Using Hydrogels. Advanced Materials 2007;19(15):1943-46.
  92. Tsai HA, Madou M. Microfabrication of Bilayer Polymer Actuator Valves for Controlled Drug Delivery, JALA, 2007: 291-295.
  93. 2006

  94. Moschou EA, Nicholson AD, Jia G, Zoval JV, Madou MJ, Bachasand, LG, Daunert, S.Integration of Microcolumns and Microfluidic Fractionators on Multitasking Centrifugal Microfluidic Platforms for the Analysis of Biomolecules. Analytical and Bioanalytical Chemistry 2007; 385(3): 596-605.
  95. Ma KS; Zhou H; Zoval J, Madou MJ. DNA Hybridization Detection by Label Free versus Impedance Amplifying Label with Impedance Spectroscopy. Sensors and Actuators B: Chemical 2006; 114(1): 58-64.
  96. Malladi K, Wang C; Madou MJ. Fabrication of Suspended Carbon Microstructures by E-Beam Writer and Pyrolysis. Carbon 2006; 44(13): 2602-07.
  97. Xu H, Wang C, Zoval J, Madou M. Polymer actuator valves toward controlled drug delivery application. Biosensors and Bioelectronics 2006;21(11):2094-99.
  98. Xu H, Konovalov V, Contescu C, Jaffe S, Madou M. Water transport in a non-aqueous, polypyrrole electrochemical cell. Sensors and Actuators B: Chemical 2006;114(1):248-53.
  99. Wang C, Zaouk R, Madou M. Local chemical vapor deposition of carbon nanofibers from photoresist. Carbon 2006;44(14):3073-77.
  100. Park B, Paradiso A, Kawabe M, Madou M. A novel dielectrophoretic oil filter. Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering 2006;220(4):481-96.
  101. Park B, Madou M. Design, fabrication, and initial testing of a miniature PEM fuel cell with micro-scale pyrolyzed carbon fluidic plates. Journal of Power Sources 2006;162(1):369-79.
  102. Moschou E, Nicholson A, Jia G, Zoval J, Madou M, Bachas L, et al. Design and Integration of Fractionation and Isolation Microfluidic Features on Centrifugal Microfluidic Platforms for the Analysis of Biomolecules. Anal Bioanal Chem 2006;385:596-605.
  103. Moschou E, Madou M, Bachas L, Daunert S. Voltage-switchable artificial muscles actuating at near neutral pH. Sensors and Actuators B: Chemical 2006;115(1):379-83.
  104. Malladi K, Wang C, Madou M. Microfabrication of Suspended C-MEMS Structures by EB Writer and Pyrolysis. Carbon 2006;44(13):2602-07.
  105. Madou M, Zoval J, Jia G, Kido H, Kim J, Kim N. Lab on a CD. Biomedical Engineering 2006;8(1):601.
  106. Lambert R, Chakraborty S, Madou M, Rangel R. Moving Flap Model for Fast DNA Hybridization in Microchannel Flow. 32nd International Conference on Micro and Nano Engineering (MNE 2006). Barcelona, Spain, 2006.
  107. Jia G, Ma K, Kim J, Zoval J, Peytavi R, Bergeron M, et al. Dynamic automated DNA hybridization on a CD (compact disc) fluidic platform. Sensors and Actuators B: Chemical 2006;114(1):173-81.
  108. Galobardes F, Wang C, Madou M. Investigation on the solid electrolyte interface formed on pyrolyzed photoresist carbon anodes for C-MEMS lithium-ion batteries. Diamond and Related Materials 2006;15(11-12):1930-34.
  109. Madou M. Nanotechnology: dry versus wet engineering?, Anal Bioanal Chem 2006; 384(4-6).
  110. 2005

  111. Ma KS, Zhou H,Zoval J, Madou MJ. Detection of DNA Hybridization by Adjacent Impedance Probing. Journal of the Association for Laboratory Automation 2005; 10(4): 219-24.
  112. Wang C, Madou M. From MEMS to NEMS with carbon. Biosensors and Bioelectronics 2005;20(10):2181-87.
  113. Wang C, Jia G, Taherabadi L, Madou M. A novel method for the fabrication of high-aspect ratio C-MEMS structures. Journal of Microelectromechanical Systems 2005;14(2):348-58.
  114. Rothert A, Deo S, Millner L, Puckett L, Madou M, Daunert S. Whole-cell-reporter-gene-based biosensing systems on a compact disk microfluidics platform. Analytical biochemistry 2005;342(1):11-19.
  115. Peytavi R, Raymond F, Gagne D, Picard F, Jia G, Zoval J, et al. Microfluidic device for rapid (< 15 min) automated microarray hybridization. Clinical chemistry 2005;51(10):1836.
  116. Park B, Taherabadi L, Wang C, Zoval J, Madou M. Electrical properties and shrinkage of carbonized photoresist films and the implications for carbon microelectromechanical systems devices in conductive media. Journal of the Electrochemical Society 2005;152(J136).
  117. Park B, Madou M. 3-D electrode designs for flow-through dielectrophoretic systems. Electrophoresis 2005;26(19):3745-57.
  118. Ehrick J, Deo S, Browning T, Bachas L, Madou M, Daunert S. Genetically engineered protein in hydrogels tailors stimuli-responsive characteristics. Nature Materials 2005;4(4):298-302.
  119. 2004 and Earlier

  120. Lai S, Wang S, Luo J, Lee J, Yang ST, Madou MJ. Design of a Compact Disk-like Microfluidic Platform for Enzyme-Linked Immunosorbent Assay. Anal. Chem. 2004;76: 1832-2837. Description:
  121. Moschou E, Peteu S, Bachas L, Madou M, Daunert S. Novel artificial muscle material with fast electroactuation under neutral pH conditions. Chemistry of Materials 2004;16(12):2499-502.
  122. Vaed K, Florkey J, Akbar S, Madou M, Lannutti J, Cahill S. An additive micromolding approach for the development of micromachined ceramic substrates for RF applications. Microelectromechanical Systems, Journal of 2004;13(3):514-25.
  123. Puckett L, Dikici E, Lai S, Madou M, Bachas L, Daunert S. 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. Analytical chemistry 2004;76(24):7263-68. Description:
  124. Wang C, Taherabadi L, Jia G, Madou M, Yeh Y, Dunn B. C-MEMS for the manufacture of 3D microbatteries. Electrochemical and Solid-State Letters 2004;7:A435
  125. Madou MJ, Solution to Microfabrication Challenge, Analytical Bioanalytical Chemical, 2004; 379(3). Description:
  126. Kassegne S, Reese H, Hodko D, Yang J, Sarkar K, Smolko D, et al. Numerical modeling of transport and accumulation of DNA on electronically active biochips. Sensors and Actuators B: Chemical 2003;94(1):81-98.
  127. Deo S, Moschou E, Peteu S, Bachas L, Daunert S, Eisenhardt P, et al. Peer Reviewed: Responsive Drug Delivery Systems. Analytical chemistry 2003;75(9):206-213.
  128. Madou M, Cubicciotti R. Scaling issues in chemical and biological sensors. Proceedings of the IEEE 2003;91(6):830-38.
  129. Wang M, Yao S, Madou M. A long-term stable iridium oxide pH electrode. Sensors and Actuators B: Chemical 2002;81(2-3):313-15.
  130. Singh A, Jayaram J, Madou M, Akbar S. Pyrolysis of negative photoresists to fabricate carbon structures for microelectromechanical systems and electrochemical applications. Journal of the Electrochemical Society 2002;149:E78.
  131. Kassegne S, Whitten  R, Madou MJ. 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.
  132. Badr IHA, Johnson RD, Madou MJ, Bachas LG. Fluorescent Ion-Selective Optode Membranes Incorporated onto a Centrifugal Microfluidics Platform. Anal. Chem. 2002;74(21): 5569–75.
  133. Martens L, Madou M, Kone L, Demoulin B, Sjoberg P, Anton A, et al. Comparison of test methods for the characterization of shielding of board-to-backplane and board-to-cable connectors. Electromagnetic Compatibility, IEEE Transactions on 2002;42(4):427-40.
  134. Kassegne S, Reese H, Swanson P, Yang J, Smolko D, Hodko D, et al. Microelectro-optical DNA array sensor (Proceedings Paper). SPIE Conference on Smart Structures and Materials 2002.
  135. Huang Y, Mather E, Bell J, Madou M. MEMS-based sample preparation for molecular diagnostics. Analytical and Bioanalytical Chemistry 2002;372(1):49-65.
  136. Yao S, Wang M, Madou M. A pH electrode based on melt-oxidized iridium oxide. Journal of the Electrochemical Society 2001;148:H29.
  137. Madou M, Lu Y, Lai S, Koh C, Lee L, Wenner B. A novel design on a CD disc for 2-point calibration measurement. Sensors and Actuators A: Physical 2001;91(3):301-06.
  138. Madou M, Lee L, Koelling K, Daunert S, Lai S, Koh C, Juang Y, Yu L, Lu Y. Design and fabrication of polymer microfluidic platforms for biomedical applications. ANTEC-SPE 59th, 2001. 2534–38.
  139. Madou M, Lee L, Daunert S, Lai S, Shih C. Design and fabrication of CD-like microfluidic platforms for diagnostics: microfluidic functions. Biomedical Microdevices 2001;3(3):245-54.
  140. Lee L, Madou M, Koelling K, Daunert S, Lai S, Koh C, et al. Design and fabrication of CD-like microfluidic platforms for diagnostics: polymer-based microfabrication. Biomedical Microdevices 2001;3(4):339-51.
  141. Johnson R, Badr I, Barrett G, Lai S, Lu Y, Madou M, et al. Development of a fully integrated analysis system for ions based on ion-selective optodes and centrifugal microfluidics. Analytical chemistry 2001;73(16):3940-46.
  142. Ranganathan S, McCreery R, Majji S, Madou M. Photoresist-derived carbon for microelectromechanical systems and electrochemical applications. Journal of the Electrochemical Society 2000;147(1):277-82.
  143. Madou M, Florkey J. From batch to continuous manufacturing of microbiomedical devices. Chemical Reviews 2000;100(7):2679-92. Description:
  144. Low L, Seetharaman S, He K, Madou M. Microactuators toward microvalves for responsive controlled drug delivery. Sensors and Actuators B: Chemical 2000;67(1-2):149-60.
  145. He K, Madou M. Exploitation of a novel artificial muscle for controlled drug delivery. Polimeric Material Science and Engineering 2000;83:495-97.
  146. Zent A, Quinn R, Madou M. A thermo-acoustic gas sensor array for photochemically critical species in the martian atmosphere. Planetary and Space Science 1998;46(6-7):795-803.
  147. Wang C, Akbar S, Madou M. Ceramic based resistive sensors. Journal of Electroceramics 1998;2(4):273-82.
  148. Kim J, Song X, Kinoshita K, Madou M, White R. Electrochemical studies of carbon films from pyrolyzed photoresist. Journal of the Electrochemical Society 1998;145:2314.
  149. Somps C, Pickering J, Madou M, Hines J, Gibbs D, Harrison M. Electrochemical performance of an ion selective, polymeric membrane following chronic implantation in rat subcutaneous tissue. Sensors and Actuators B: Chemical 1996;35(1-3):222-27.
  150. Tierney M, Kim H, Madou M, Otagawa T. Microelectrochemical sensor for nitrogen oxides. Sensors and Actuators B: Chemical 1993;13(1-3):408-11.
  151. Madou M, Tierney M. Required technology breakthroughs to assume widely accepted biosensors. Applied biochemistry and biotechnology 1993;41(1):109-28.
  152. Madou M, Joseph J. Immunosensors with commercial potential. Immunomethods 1993;3:134–52.
  153. Oh S, Madou M. Planar-Type, Gas Diffusion-Controlled Oxygen Sensor Fabricated by the Plasma Spray Method. Sensors and Actuators B: Chemical 1992;13(14):581-82.
  154. Oh S, Joseph J, Otagawa T, Madou M. Multilayer ionic devices fabricated by the plasma-spray method. Solid State Ionics 1992;53:90-94.
  155. Madou M, Tierney M. Biosensors and Microfabrication. Applied biochemistry and biotechnology 1992.
  156. Madou M, Otagawa T, Tierney M, Joseph J, Oh S. Multilayer ionic devices fabricated by thin-and thick-film technologies. Solid State Ionics 1992;53:47-57.
  157. Fariborz M, Joseph J, Madou M. Feasibility and Practicality of Monolithic Sensors. Sensors 1992:31-35 (d).
  158. Itoh K, Madou M. Optical waveguides for surface spectroscopy: FePO thin film/K doped glass composite optical waveguide systems having tapered velocity couplers. Journal of Applied Physics 1991;69:7425.
  159. Otagawa T, Madou M, Wing S, Rich-Alexander J, Kusanagi S, Fujioka T, et al. Planar microelectrochemical carbon monoxide sensors. Sensors and Actuators B: Chemical 1990;1(1-6):319-25.
  160. Tsau G, Sher A, Madou M, Wilson J, Cotton V, Jones C. State Characterization of the Hg1-xCdxTe/PhotoxTM SiO2 Interface. J. V. Sci. Technol. A 1988;4(4).
  161. Madou M, Morrison S, Bondarenko V. Introduction of Impurities in Anodically Grown Silica. Journal of the Electrochemical Society 1988;135:229.
  162. Krishnamurthy S, Sher A, Madou M, Chen A. Semiconductor alloys for fast thermal sensors. Journal of Applied Physics 1988;64(3):1530-32.
  163. Madou MJ, Otagawa T. Electrolytic Media for Chemical Sensors. Solid State Ionics 1988; 28-30:1653-1659.
  164. Madou MJ, Smith J, Szpak S. Comments on Electroreduction of SOCl. Journal of the Electrochemical Society 1987;134:2794.
  165. Tsau G, Sher A, Madou M, Wilson J, Cotton V, Jones C. Low-frequency admittance measurements on the HgCdTe/PhotoxSiO2 interface. Journal of Applied Physics 1985;59(4):1238-44.
  166. Mercier J, Fransen F, Cardon F, Madou M, Gomes W. Effects of Anodic Polarization Upon Electrochemically Grown Oxide Films on p-Si, Studied by Ellipsometric and Capacitance Measurements. Berichte der Bunsengesellschaft für physikalische Chemie 1985;89(2):117-20.
  167. Madou MJ, Szpak S. Investigation of SOCl Reduction by Cyclic Voltammetry and AC Impedance Measurements. Journal of the Electrochemical Society 1984;131:2471.
  168. Madou M, Kinoshita K, McKubre M. Electrochemical measurements on metal oxide electrodes--II. Impedance measurements on Nb-doped single crystal TiO2. Electrochimica Acta 1984;29(3):419-23.
  169. Madou MJ, Kinoshita K. Electrochemical measurements on metal oxide electrodes--I. Zirconium dioxide. Electrochimica Acta 1984;29(3):411-17.
  170. Kinoshita K, Madou M. Electrochemical measurements on Pt, Ir, and Ti oxides as pH probes. Journal of the Electrochemical Society 1984;131:1089.
  171. Madou M, McKubre M. Impedance measurements and photoeffects on Ni electrodes. Journal of the Electrochemical Society 1983;130:1056.
  172. Madou M, Kinoshita K, McKubre M. Electrochemical Studies on the Cathodic Reduction of Thionyl Chloride. Journal of the Electrochemical Society 1983;130(3):126C.
  173. Fransen F, Madou M, Laflere W, Cardon F, Gomes W. On the dielectric properties of semiconducting materials as obtained from impedance measurements on Schottky barriers. Journal of Physics D: Applied Physics 1983;16:879.
  174. Madou M, Gomes W, Fransen F, Cardon F. Anodic Oxidation of p Type Silicon in Methanol as Compared to Glycol. Journal of the Electrochemical Society 1982;129:2749.
  175. Madou MJ, Brondeel P, Gomes W, Hanselaer P, Cardon F. Investigation on photoelectrochemical cells based upon silicon/methanol interfaces. Part 2: p-type Si. Solar Energy Materials 1982;7(1):33-42.
  176. Brondeel P, Madou M, Gomes W, Cardon F. Investigation on photoelectrochemical cells based upon silicon/methanol interfaces. Part 1: n-type Si. Solar Energy Materials 1982;7(1):23-32.
  177. Madou MJ, Loo B, Frese K, Morrison S. Bulk and surface characterization of the silicon electrode. Surface Science 1981;108(1):135-52.
  178. Frese K, Madou M, Morrison S. Investigation of Photoelectro-Chemical Corrosion of Semiconductors, III. Effects of Metal Layers on the Stability of GaAs. Journal of the Electrochemical Society 1981;128(9):1939-43.
  179. Madou MJ, Loo B, Frese K, Morrison S. Bulk and Surface Characterization of the Silicon Electrode. Surface Science 1981;108(1):135-52.
  180. Frese K, Madou M, Morrison S. Investigation of Photoelectro-Chemical Corrosion of Semiconductors, II. Kinetic Analysis of Corrosion-Competitive Reactions on n-GaAs. Journal of the Electrochemical Society 1981;128(7):1527-31.
  181. Morrison S, Madou M, Frese K. Imperfections in and ion diffusion through oxide layers on silicon. Applied Surface Science 1980;6(2):138-48.
  182. Madou M, Frese Jr K, Morrison S. Influence of Surface Damage on Stabilization Against Photodecomposition on n-Type GaAs. Journal of the Electrochemical Society 1980;127(4):987-89.
  183. Madou MJ, Frese Jr K, Morrison S. Photoelectrochemical corrosion as influenced by an oxide layer. The Journal of Physical Chemistry 1980;84(25):3423-28.
  184. Madou MJ, Frese Jr K, Morrison S. The silicon/silica electrode. Physica Status Solidi (a) 1980;57(2):705-12.
  185. Frese Jr K, Madou M, Morrison S. Investigation of photoelectrochemical corrosion of semiconductors. The Journal of Physical Chemistry 1980;84(24):3172-78.
  186. Madou MJ, Frese Jr K, Morrison S. Electron exchange at the surface of thermally grown silica. Journal of the Electrochemical Society 1979;126:1827.
  187. Madou MJ, Cardon F, Gomes W. Cyclic Voltammetric Study of n and p Type GaP Electrodes. Berichte der Bunsengesellschaft für physikalische Chemie 1978;82(8):819-23.
  188. Madou MJ, Cardon F, Gomes W. Anodic Processes at the n and p Type GaP Electrodes. Berichte der Bunsengesellschaft für physikalische Chemie 1977;81(11):1186-90. Madou M, Cardon F, Gomes W. Impedance Measurements at the N and P Type GaP Single Crystal Electrode. Journal of the Electrochemical Society 1977;124:1623.

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