| 2005-10 | 3-D electrode designs for flow-through dielectrophoretic systems | Park, BY; Madou, Mark | ARTICLE | 664 |
| 2007 | A case for fractal electrodes in electrochemical applications | Park, Benjamin Y.; Zaouk, Rabih; Wang, Chunlei; Madou, Mark | ARTICLE | 681 |
| 2012-08 | A Computer-Controlled Near-Field Electrospinning Setup and Its Graphic User Interface for Precision Patterning of Functional Nanofibers on 2D and 3D Substrates | Bisht, Gobind; Nesterenko, Sergiy; Kulinsky, Lawrence; Madou, Mark | ARTICLE | 251 |
| 2007-07 | A low-cost, disposable card for rapid polymerase chain reaction | Jia, Guangyao; Siegrist, Jonathan; Deng, Chengwu; Zoval, Jim V.; Stewart, Gale; Peytavi, Regis; Huletsky, Ann; Bergeron, Michel G.; Madou, Mark | ARTICLE | 549 |
| 2011-06 | A multiplexed immunoassay system based upon reciprocating centrifugal microfluidics | Noroozi, Zahra; Kido, Horacio; Peytavi, Regis; Nakajima-Sasaki, Rie; Jasinskas, Algimantas; Micic, Miodrag; Felgner, Philip L.; Madou, Mark | ARTICLE | 641 |
| 2012-05 | A new approach to gas sensing with nanotechnology | Sharma, Swati; Madou, Mark | ARTICLE | 619 |
| 2011-09 | A novel approach to dielectrophoresis using carbon electrodes | Martinez-Duarte, Rodrigo; Renaud, Philippe; Madou, Mark | ARTICLE | 604 |
| 2006-04 | A novel dielectrophoretic oil filter | Park, BY; Paradiso, A; Kawabe, M; Madou, Mark | ARTICLE | 508 |
| 2005-04 | A novel method for the fabrication of high-aspect ratio C-MEMS structures | Wang, CL; Jia, GY; Taherabadi, LH; Madou, Mark | ARTICLE | 502 |
| 2007-07 | A novel, compact disk-like centrifugal microfluidics system for cell lysis and sample homogenization | Kido, Horacio; Micic, Miodrag; Smith, David; Zoval, Jim; Norton, Jim; Madou, Mark | ARTICLE | 625 |
| 2004-06 | An additive micromolding approach for the development of micromachined ceramic substrates for RF applications | Vaed, K; Florkey, J; Akbar, SA; Madou, Mark; Lannutti, JJ; Cahill, SS | ARTICLE | 469 |
| 2011-06-26 | An application specific multi-channel stimulator for electrokinetically- driven microfluidic devices | Gomez-Quiñones, Jose; Moncada-Hernandez, Hector; Rossetto, Olivier; Martinez-Duarte, Rodrigo; Lapizco-Encinas, Blanca H.; Madou, Mark; Martinez-Chapa, Sergio O. | CONFERENCE | 59 |
| 2004-06 | Artificial muscle material with fast electroactuation under neutral pH conditions | Moschou, EA; Peteu, SF; Bachas, LG; Madou, Mark; Daunert, S | ARTICLE | 557 |
| 2007-03 | Automated microfluidic compact disc (CD) cultivation system of Caenorhabditis elegans | Kim, Nahui; Dempsey, Catherine M.; Zoval, Jim V.; Sze, Ji-Ying; Madou, Mark | ARTICLE | 570 |
| 2004 | C-MEMS for the manufacture of 3D microbatteries | Wang, CL; Taherabadi, L; Jia, GY; Madou, Mark; Yeh, YT; Dunn, B | ARTICLE | 692 |
| 2011-03 | Carbon Interdigitated Array Nanoelectrodes for Electrochemical Applications | Heo, J. I.; Shim, D. S.; Teixidor, G. Turon; Oh, S.; Madou, Mark; Shin, Heungjoo | ARTICLE | 845 |
| 2012-01 | Centrifugal microfluidic platform for rapid PCR amplification using integrated thermoelectric heating and ice-valving | Amasia, Mary; Cozzens, Meghan; Madou, Mark | ARTICLE | 859 |
| 2009-10-21 | Centrifugal Microfluidics for Biomedical Applications | Gorkin, R; Park, J; Siegrist, J; Amasia, M; Lee, BS; Park, JM; Kim, J; Kim, H; Madou, Mark; Cho, Yoon-Kyoung | CONFERENCE | 55 |
| 2007-11 | Centrifugal Microfluidics with Integrated Sensing Microdome Optodes for Multiion Detection | Watts, Amanda S.; Urbas, Aaron A.; Moschou, Elissavet; Gavalas, Vasilis G.; Zoval, Jim V.; Madou, Mark; Bachas, Leonidas G. | ARTICLE | 549 |
| 2004-01 | Centrifuge-based fluidic platforms | Zoval, JV; Madou, Mark | ARTICLE | 489 |
