Embed Size (px)
Citation preview
Page 1 of 20
IAN PAPAUTSKY, Ph.D.
Professor Richard and Loan Hill Department of Bioengineering Co-Director NSF Center for Advanced Design & Manufacturing of Integrated Microfluidics (CADMIM) Fellow Royal Society of Chemistry University of Illinois at Chicago Department of Bioengineering (MC 063) 851 S. Morgan Street, 218 SEO Chicago, IL 60607 [email protected] EDUCATION 1999 Ph.D. in Bioengineering University of Utah, Salt Lake City, Utah Dissertation: Metallic Microinstrumentation for Biomedical Fluid Applications Dissertation Chair: Dr. A. Bruno Frazier 1995 B.S. in Biomedical Engineering Boston University, Boston, Massachusetts Research Project: High Performance Capillary Electrophoresis Project Advisor: Dr. Cassandra Smith
PROFESSIONAL EXPERIENCE 2016 - present Professor, Richard and Loan Hill Department of Bioengineering, Univ. Illinois at Chicago 2013 - present Co-Director, NSF I/UCRC Center for Advanced Design & Manufacturing of Integrated
Microfluidics (CADMIM) 2015 - 2016 Professor (secondary appointment), Department of Biomedical Engineering,
Univ. Cincinnati 2015 - 2016 Dean Advisory Council, College of Engineering and Applied Sciences, Univ. Cincinnati 2014 - 2016 Professor, Department of Electrical Engineering & Computing Systems, Univ. Cincinnati
Professor (secondary appointment), Department of Chemistry, Univ. Cincinnati 2012 - 2016 Director, Ohio Center for Microfluidic Innovation (OCMI) 2008 - 2012 Director, University of Cincinnati Engineering Research Center for Micro/Nano
Fabrication (ERC Cleanroom) 2006 - 2014 Associate Professor, Department of Electrical Engineering and Computing Systems,
University of Cincinnati 2000 - 2006 Assistant Professor, Department of Electrical and Computer Engineering & Computer
Science, University of Cincinnati GRANTS AND PUBLICATIONS $11.6M in research and equipment funding since 2000 [10 NSF awards (6 as PI) and 4 NIH awards (3 as PI)]; 80 journal and 141 conference proceedings publications. AWARDS AND HONORS 2016 Distinguished Engineering Researcher, College of Engineering and Applied Sciences,
University of Cincinnati 2014 Nominated: Cincinnati Business Courier Innovation Award 2013 William H. Middendorf Research Excellence Award, SECS, University of Cincinnati 2013 Nominated: Vice Chair, Gordon Research Conference on Microfluidics in 2017
Page 2 of 20
2009 Distinguished Engineering Researcher, College of Engineering, University of Cincinnati 2007 Ohio Bioscience 30 in Their 30s 2007 Master Engineering Educator, College of Engineering, University of Cincinnati 2007 Excellence and Service Award, International Society for Optical Engineering (SPIE) 2006 William E. Restenmeyer Teaching Excellence Award, SECS, University of Cincinnati 2005 Excellence and Service Award, International Society for Optical Engineering (SPIE) 2004 William H. Middendorf Research Excellence Award, SECS, University of Cincinnati 2004 Nominated: Future of Learning Award, University of Cincinnati 2003 Professor of the Quarter Award, CEAS, University of Cincinnati, Spring 2003 2002 William E. Restenmeyer Teaching Excellence Award, University of Cincinnati RECOGNITION IN PRESS 2016 “Integrated Microfluidic Device for Isolation & Enrichment of Rare Cells,” 2016 Compendium of
Industry-Nominated NSF I/UCRC Technological Breakthroughs, National Science Foundation 2014 “New NSF Center Leverages Industry Partnerships to Improve Microfluidic Devices” CEAS News,
04/10/2014, by Lori Brandt (http://ceas.uc.edu/news-1314/new-nsf-center-leverages-industry-partnerships-to-improve-microf.html)
2014 “2014 Innovation Award Series—Papautsky Produces Portable Sensor” CEAS News, 02/26/2014, by Ashley Duvelius (http://ceas.uc.edu/news-1314/2014-innovation-award-seriespapautsky-produces-portable-sensor.html)
2013 “Faculty Inventors Honored at Midcourt - UC faculty who were awarded patents in 2012 honored at midcourt Wednesday, Jan. 30, during the men's basketball game in Fifth Third Arena,” UC News, 01/31/2013 by Dama Ewbank (http://www.uc.edu/news/NR.aspx?id=17247)
2013 “Consortium’s Investment in UC Research Brings Medical Technology of “Star Trek” a Step Closer,” UC News, 01/30/2013 by Tom Curtis (http://www.uc.edu/news/NR.aspx?id=17241)
2013 “UC Engineers in Nanospace,”UC News, 01/11/2013 by Arthur Davies (http://www.uc.edu/profiles/profile.asp?id=17162)
2012 “Microfluidic Breakthroughs Offer New Options for Ease and Accuracy in Extraction of Rare Cells or Separating Blood,” UC News, 10/26/2012 by Desiré Bennett (http://www.uc.edu/news/NR.aspx?id=16775)
2011 “New UC Research Promises Better Collection of Prostate Cancer Cells,” UC News, 9/28/2011 by M.B. Reilly (www.uc.edu/news/NR.aspx?id=14288) NSF Science 360 News Service (news.science360.gov/archives/20110929)
2011 “UC grantees’ lab-on-a-chip detects toxic heavy metals in humans,” NIEHS eFactor, 9/1/2011 by Ed Kang.
2011 “Sensor Promises Rapid Detection of Dangerous Heavy Metal Levels,” Today’s Medical Developments, September 2011 by Elizabeth Engler Modic.
2011 “Air Pollution Study Still Recruiting Participants, Receives Scientific Boost With 'Lab-in-Chip' Sensor,” UC Health News, 8/9/2011, Amanda Harper (http://healthnews.uc.edu/news/?/14224/).
2011 “New Sensors Seen as Tool to Detect Manganese,” The Marietta Times, 8/4/2011 by Ashley Rittenhouse.
2011 “New UC Sensor Promises Rapid Detection of Dangerous Heavy Metals in Humans,” UC News, 8/1/2011 by M.B. Reilly (www.uc.edu/news/nr.aspx?id=13977) NSF Science 360 News Service, US News & World Report.
2010 “UC Awarded $3 Million from State of Ohio to Research Microfluidic Devices for Medical Settings,” UC News, 5/27/2010 by Wendy Beckman (http://www.uc.edu/news/NR.aspx?id=12000).
2010 “A Lab on a Chip with Moveable Channels,” UC News, 3/19/2010 by Wendy Beckman (http://www.uc.edu/news/NR.aspx?id=11597).
2007 “Thirty in their 30s: young bioscience professionals make their mark in Ohio,” Accelerating Excellence, BioOhio, Spring/Summer 2007
2007 “Ohio Bioscience Magazine Delivers Honors to Young UC Faculty,” UC Currents, June 6, 2007, by Carey Hoffman (www.uc.edu/news)
2007 “UC researchers have cause to celebrate,” Update from the Office of Research, University of Cincinnati, June 2007, by Sandra Degen (research.uc.edu)
Page 3 of 20
2006 “Research Brief 133: Microelectrodes for Environmental Monitoring,” National Institute of Environmental Health Sciences (NIEHS), Release date: 01/04/2006.
2004 “Congressman Steve Chabot Visits UC College of Engineering,” College News in Brief, April 15, 2004. (http://www.eng.uc.edu/resources/collegenews/)
2002 “Biology-Engineering Collaboration Improves Detection of Dangerous Microbes,” UC Currents, March 27, 2002, by Chris Curan (www.uc.edu/news)
PUBLICATIONS Google Scholar Statistics: http://scholar.google.com/citations?hl=en&user=xp1m6IQAAAAJ (h-index = 34, >600 citations/year) Journal Articles 1. N. Nivedita, N. Garg, A. P. Lee and I. Papautsky, “A high throughput microfluidic platform for size-
selective enrichment of cell populations in tissue and blood samples,” Analyst, 2017. 2. C. A. Rusinek, W. Kang, K. Nahan, M. Hawkins, C. Quartermaine, A. Stastny, A. Bange,
I. Papautsky, and W. R. Heineman, “Determination of manganese in whole blood by cathodic stripping voltammetry with indium tin oxide,” Electroanalysis, 2017, DOI: 10.1002/elan.201700137
3. N. Nivedita, P. Ligrani, and I. Papautsky, “Dean flow dynamics in low-aspect ratio spiral microchannels,” Scientific Reports, 2017, 7, 44072, doi:10.1038/srep44072
4. X. Wang, H. Gao, N. Dindic, N. Kaval, and I. Papautsky, “A low-cost, plug-and-play inertial microfluidic helical capillary device for high-throughput flow cytometry”, Biomicrofluidics, 2017, 11, 014107, doi: 10.1063/1.4974903
5. W. Kang, C. Rusinek, A. Bange, E. Haynes, W. R. Heineman, and I. Papautsky, “Determination of manganese using cathodic stripping voltammetry on a platinum thin-film electrode”, Electroanalysis, 2017, 29, 686–695, doi: 10.1002/elan.201600679.
Featured on the front cover of the journal 6. W. Kang, X. Pei, C. A. Rusinek, A. Bange, E. N. Haynes, W. R. Heineman, and I. Papautsky,
“Determination of lead with a copper-based electrochemical sensor,” Anal. Chem., 2017, 89 (6), pp 3345–3352, doi: 10.1021/acs.analchem.6b03894.
7. R. C. Murdock, K. M. Gallegos, J. A. Hagen, N. Kelley-Loughnane, A. Weiss, and I. Papautsky, “Development of a point-of-care diagnostic for influenza detection with antiviral treatment effectiveness indication,” Lab Chip, 2017, 17, 332-332, doi:10.1039/C6LC01074A.
8. X. Wang, X. Yang, and I. Papautsky, “An integrated inertial microfluidic vortex sorter for tunable sorting and purification of cells,” Technology, 2016, 04, 88 DOI: 10.1142/S2339547816400112.
9. M. A. Kandadai, P. Mukherjee, H. Shekhar, G. J. Shaw, I. Papautsky, C. K. Holland, “Microfluidic manufacture of rt-PA -loaded echogenic liposomes”, Biomedical Microdevices, 2016, 18, 48.
10. C. Rusinek, A. Bange, M. Warren, W. Kang, K. Nahan, I. Papautsky, W. Heineman, “Trace detection of manganese using cathodic stripping voltammetry with an indium tin oxide working electrode coated with a charge selective polymer film,” Anal. Chem., 2016, 88 (8), 4221–4228.
11. X. Wang, C. Liedert, R. Liedert, and I. Papautsky, “Disposable, roll-to-roll hot embossed inertial microfluidic device for size-based sorting of microbeads and cells,” Lab Chip, 2016, 16, 1821-1830.
Featured on the back cover of the journal 12. S. L. SelvaKumar, X. Wang, J. Hagen, R. Naik, I. Papautsky and J. Heikenfeld, “Label free nano-
aptasensor for interleukin-6 in biofluids,” Anal. Methods, 2016, 8, 3440-3444. 13. X. Wang, M. Zandi, C.-C. Ho, N. Kaval, and I. Papautsky, “Single stream inertial focusing in a
straight microchannel,” Lab Chip, 2015, 15, 1812-1821.
Featured on the back cover of the journal
Top 3 most downloaded article in Lab on a Chip in Mar 2015 14. C. A. Rusinek, A. Bange, I. Papautsky, and W. R. Heineman, “Cloud point extraction for
electroanalysis: anodic stripping voltammetry of cadmium,” Anal. Chem., 2015, 87(12), 6133–6140. 15. X. Wang and I. Papautsky, “Size-based microfluidic multimodal microparticle sorter,” Lab Chip, 2015,
15, 1350-1359.
Top 5 most downloaded article in Lab on a Chip in Jan 2015
Page 4 of 20
16. D. Rose, M. Ratterman, D. Griffin, L. Hou, N. Kelley-Loughnane, R. Naik, J. Hagen, I. Papautsky, J. Heikenfeld, "Adhesive RFID sensor patch for monitoring of sweat electrolytes," IEEE Trans. Biomed. Eng., 2015. 62(6), 1457-1465.
17. A. Banerjee, J.-H. Noh, Y. Liu, P. Rack, I. Papautsky, “Programmable electrowetting with channels and droplets,” Micromachines, 2015, 6(2), 172-185.
18. W. Kang, X. Pei, A. Bange, W. R. Heineman, I. Papautsky, “Copper-based electrochemical sensor with palladium electrode for cathodic stripping voltammetry of manganese,” Anal. Chem., 2014, 86(24), 12070-12077.
19. J. Zhou, P. V. Giridhar, S. Kasper, and I. Papautsky, “Modulation of rotation-induced lift force for cell filtration in a low aspect ratio microchannel”, Biomicrofluidics, 2014, 8, 044112.
20. X. Pei, W. Kang, W. Yue, A. Bange, W. R. Heineman, and I. Papautsky, “Disposable copper-based electrochemical sensor for anodic stripping voltammetry”, Anal. Chem., 2014, 86(10), 4893-4900.
21. A. Schultz, I. Papautsky, and J. Heikenfeld, “Investigation of Laplace barriers for arrayed electrowetting lab-on-a-chip,” Langmuir, 2014, 30, 5349-5356.
22. M. Ratterman, L. Shen, D. Klotzkin, I. Papautsky, “Carbon dioxide luminescent sensor based on a CMOS image array,” Sensors & Actuators B: Chemical, 2014, 198, 1-6.
23. Y. Liu, A. Banerjee, and I. Papautsky, “Precise nanoliter droplet generation and volume control in electrowetting microchannels,” Microfluidics Nanofluidics, 2014, 17(2), 295-303.
24. X. Pei, W. Kang, A. Bange, W. R. Heineman and I. Papautsky, “Improving reproducibility of lab-on-a-chip sensor with bismuth working electrode for measuring Zn in serum by stripping voltammetry,” J. Electrochem. Soc., 2014, 161(2), B3160-B3166.
25. R. Murdock, L. Shen, D. Griffin, N. Kelley-Loughnane, I. Papautsky, J. Hagen, “Optimization of a paper-based ELISA for a human performance biomarker,” Anal. Chem, 2013, 85(23), 11634-11642.
26. W. Kang, X. Pei, A. Bange, W. R. Heineman and I. Papautsky, “Lab-on-a-chip sensor with evaporated bismuth film electrode for anodic stripping voltammetry of Zn,” Electroanalysis, 2013, 25(12), 2586-2594.
27. J. Zhou, S. Kasper and I. Papautsky, “Enhanced size-dependent trapping of particles using microvortices,” Microfluidics Nanofluidics, 2013, 15(5), 611-623.
28. W. Yue, A. Bange, B. L. Riehl, J. M. Johnson, I. Papautsky and W. R. Heineman, “The application of nafion metal catalyst free carbon nanotube modified gold electrode: voltammetric bovine zinc detection,” Electroanalysis, 2013, 25(10), 2259–2267.
29. N. Nivedita and I. Papautsky, “Continuous separation of blood cells in spiral microfluidic devices,” Biomicrofluidics, 2013, 7, 054101.
30. X. Wang, J. Zhou, and I. Papautsky, “Vortex-aided inertial microfluidic device for continuous particle separation with high size-selectivity, efficiency, and purity,” Biomicrofluidics, 2013, 7, 044119.
31. V. N. Shanov, M. Schulz, T. D. Mantei, F. J. Boerio, L. Smith, S. Iyer, I. Papautsky, D. D. Dionysiou, D. Shi, and J. Bickle, “Integration of Nanoscale Science and Technology into Undergraduate Curricula,” Journal of Nano Education, 2013, 5, 1-7.
32. J. Zhou, P.V. Giridhar, S. Kasper and I. Papautsky, “Modulation of aspect ratio for complete separation in an inertial microfluidic channel,” Lab Chip, 2013, 13, 1919-1929.
33. L. Hou, J. Hagen, X. Wang, I. Papautsky, R. Naik, N. Kelley-Loughnane and J. Heikenfeld, “Artificial Microfluidic Skin for In Vitro Perspiration Simulation and Testing,” Lab Chip, 2013, 13, 1868–1875.
34. R. Dixit, L. Shen, M. Ratterman, I. Papautsky and D. Klotzkin, “Simultaneous Single Detector Measurement of Multiple Fluorescent Sources,” IEEE Sensors Journal, 2013, 13, 1965-1971.
35. X. Wang, J. A. Hagen and I. Papautsky, “Paper pump for passive programmable transport,” Biomicrofluidics, 2013, 7, 014107
36. J. Zhou and I. Papautsky, “Fundamentals of Inertial Focusing in Microchannels,” Lab Chip, 2013, 13, 1121-1132.
Top 5 most accessed article in Lab on a Chip in Jan 2013 37. P. Jothimuthu, R. A. Wilson, J. Herren, X. Pei, W. Kang, R. Daniels, H. Wong, F. Beyette, W. R.
Heineman and I. Papautsky, “Zinc Detection in Serum by Anodic Stripping Voltametry on Microfabricated Bismuth Electrodes,” Electroanalysis, 2013, 25, 401-407.
38. A. Banerjee, Y. Liu, J. Heikenfeld and I. Papautsky, “Deterministic splitting of fluid volumes in electrowetting microfluidics” Lab Chip, 2012, 12, 5138-5141.
39. L. Shen, J. Hagen, I. Papautsky, “Point-of-Care Colorimetric Detection with a Smartphone,” Lab Chip, 2012, 12, 4240–4243.
Page 5 of 20
40. W. Yue, A. Bange, B. Reihl, J. M. Johnson, I. Papautsky, W. R. Heineman, “Manganese detection with a metal catalyst free carbon nanotube electrode: anodic vs. cathodic stripping voltammetry,” Electroanalysis, 2012, 24, 1909-1914.
41. A. Banerjee, E. Kreit, Y. Liu, J. Heikenfeld and I. Papautsky, “Reconfigurable virtual electrowetting channels,” Lab Chip, 2012, 12, 758-764.
42. W.-H. Choi, W. H. Lee, and I. Papautsky, “Multi-analyte needle-type sensor for in situ measurement of pH and phosphate,” J. Micro/Nanolithography, MEMS, and MOEMS (JM3), 2011, 10, 020501.
43. P. Jothimuthu, R. A. Wilson, J. Herren, E. Haynes, W. R. Heineman, and I. Papautsky, “Lab-on-a-chip sensor for detection of highly electronegative heavy metals by anodic stripping voltammetry,” Biomed. Microdev., 2011, 13, 695-703.
44. L. Shen, M. Ratterman, D. Klotzkin, and I. Papautsky, “A CMOS optical detection system for point-of-care chemical sensors,” Sensors Actuators B, 2011, 155, 430-435.
45. L. Shen, M. Ratterman, D. Klotzkin, and I. Papautsky, “Use of a low-cost CMOS detector and cross-polarization signal isolation for oxygen sensing,” IEEE Sensors J., 2011, 11, 1359-1360.
46. W. H. Lee, J.-H. Lee, W.-H. Choi, A. A. Hosni, I. Papautsky, and P. L Bishop, "Needle-type environmental microsensors: design, construction and uses of microelectrodes and multi-analyte MEMS sensor arrays," Meas. Sci. Technol., 2011, 22, 042001.
47. E. Kreit, M. Dhindsa, S. Yang, K. Zhou, I. Papautsky, and J. Heikenfeld, “Porous electrowetting barriers for digital flow thresholding and virtual fluid confinement,” Langmuir, 2010, 26, 18550-18556.
48. A. A. S. Bhagat, S. S. Kuntaegowdanahalli, N. Kaval, C. J. Seliskar, and I. Papautsky, “Inertial microfluidics for sheath-less high-throughput flow cytometry,” Biomed. Microdev., 2010, 12, 187-195.
49. M. Dhindsa, J. Heikenfeld, S. Kwon, J. Park, P. Rack, I. Papautsky, “Virtual electrowetting channels: electronic liquid transport with continuous channel functionality,” Lab Chip, 2010, 10, 832-836.
50. K. A Comandur, A. A. S. Bhagat, S. Dasgupta, I. Papautsky, and R. K. Banerjee, “Transport and reaction of nano-liter samples in a microfluidic reactor using electroosmotic flow,” J. Micromech. Microeng., 2010, 20, 035017.
51. A. Banerjee, Y. Shuai, R. Dixit, I. Papautsky, and D. Klotzkin, “Concentration dependence of fluorescence signal in a microfluidic fluorescence detector,” J. Lumin., 2010, 130, 1095-1100.
52. S. S. Kuntaegowdanahalli, A. A. S. Bhagat, and I. Papautsky, “Dean force coupled inertial migration based particle separation in spiral microchannels,” Lab Chip, 2009, 9, 2973-2980.
53. T.-S. Lim, J.-H. Lee, I. Papautsky, “Effects of Recess Dimensions on Performance of the Recessed Cathode Dissolved Oxygen Sensor,” Sensors Actuators B, 2009, 141, 50-57.
54. A. A. S. Bhagat, S. S. Kuntaegowdanahalli, and I. Papautsky, “Geometrically modulated inertial microfluidics for continuous particle filtration and extraction,” Microfluid. Nanofluid., 2009, 7, 217-226.
55. W. H. Lee, J.-H. Lee, P. L. Bishop, I. Papautsky, “Biological application of MEMS microelectrode array sensors for direct measurement of phosphate in the enhanced biological phosphorous removal process,” Water Environ. Res., 2009, 81, 748-754.
56. P. Jothimuthu, A. A. S. Bhagat, A. Carroll, G. Lin, J. Mack, and I. Papautsky, “Photodefinable PDMS thin films for microfabrication applications,” J. Micromech. Microeng., 2009, 19, 045024.
57. J.-H. Lee, W. H. Lee, P. L. Bishop, I. Papautsky, “Cobalt coated needle-type microelectrode array sensor for in situ monitoring of phosphate,” J. Micromech. Microeng., 2009, 19, 025022.
58. A. A. S. Bhagat, S. S. Kuntaegowdanahalli, and I. Papautsky, “Continuous particle separation in spiral microchannels using Dean flows and differential migration,” Lab Chip, 2008, 8, 1906-1914.
59. A. A. S. Bhagat, S. Kuntaegowdanahalli, and I. Papautsky, “Enhanced particle filtration in straight microchannels using shear-modulated inertial migration,” Physics of Fluids, 2008, 20, 101702.
60. A. A. S. Bhagat, and I. Papautsky, “Enhancing particle dispersion in a passive planar micromixer using rectangular obstacles,” J. Micromech. Microeng., 2008, 18, 085005.
61. S. Dasgupta, A. A. S. Bhagat, M. Horner, I. Papautsky, and R. K. Banerjee, “Effects of applied electric field and microchannel wetted perimeter on electroosmotic velocity,” Microfluid. Nanofluid., 2008, 5, 185-192.
62. A. Pais, A. Banerjee, D. Klotzkin, and I. Papautsky, “High-sensitivity, disposable lab-on-a-chip with thin-film organic electronics for fluorescence detection,” Lab Chip, 2008, 8, 794-800.
63. A. Banerjee, A. Pais, I. Papautsky, and D. Klotzkin, “A polarization isolation method for high-sensitivity, low cost on-chip fluorescence detection for microfluidic lab-on-a-chip,” IEEE Sensors Journal, 2008, 8(5), 621-627.
Page 6 of 20
64. I. Papautsky and E. T. K. Peterson, “An introductory course to biomedical microsystems for undergraduates,” Biomed. Microdev., 2008, 10, 375-378.
65. J.-H. Lee, Y. Seo, T.-S. Lim, P. L. Bishop, and I. Papautsky, “MEMS needle-type sensor array for in situ measurements of dissolved oxygen and redox potential,” Environ. Sci. Technol., 2007, 41(22), 7857-7863.
66. J.-H. Lee, T.-S. Lim, Y. Seo, P. L. Bishop, and I. Papautsky, “Needle-type dissolved oxygen microelectrode array sensors for in situ measurements,” Sensors Actuators B, 2007, 128, 179-185.
67. A. A. S. Bhagat, P. Jothimuthu, and I. Papautsky, “Photodefinable polydimethylsiloxane (PDMS) for rapid lab-on-a-chip prototyping,” Lab Chip, 2007, 7, 1192-1197.
68. A. A. S. Bhagat, E. T. K. Peterson, and I. Papautsky, “A passive planar micromixer with obstructions for mixing at low Reynolds numbers,” J. Micromech. Microeng., 2007, 17, 1017-1024.
69. G. Jing, A. Polaczyk, D. Oerther, and I. Papautsky, “Developing biochip for culture based detection of environmental mycobacteria,” Sensors Actuators B, 2007, 123, 614-629.
70. A. A. S. Bhagat, A. Pais, P. Jothimuthu, and I. Papautsky, “Re-usable quick-release interconnect for characterization of microfluidic systems,” J. Micromech. Microeng., 2007, 17, 42-49.
71. D. Klotzkin and I. Papautsky, “High-sensitivity integrated fluorescence analysis for microfluidic lab-on-a-chip,” SPIE News, 2007, DOI: 10.1117/2.1200705.0748
72. J.-H. Lee, A. Jang, R. R. Myers, P. Bhadri, W. Timmons, F. R. Beyette, P. L. Bishop, and I. Papautsky, “Fabrication of microelectrode arrays for sensing of oxidation reduction potentials,” Sensors Actuators B, 2006, 115(1), 220-226.
73. A. Polaczyk, B. Kinkle, I. Papautsky, and D. B. Oerther, “Culture-based MEMS device to track Gordonia in activated sludge,” Environ. Sci. Technol., 2006, 40(7), 2269-2274.
74. C. Li, F. E. Sauser, R. G. Azizkhan, C. Ahn, and I. Papautsky, “Polymer flip-chip bonding pressure sensors on flexible Kapton film for neonatal catheters,” J. Micromech. Microeng., 2005, 15(9), 1729-1735.
75. A. Jang, J.-H. Lee, P. R. Bhadri, W. Timmons, F. R. Beyette, I. Papautsky, and P. L. Bishop, “Miniaturized redox potential probe for in situ environmental monitoring,” Environ. Sci. Technol., 2005, 39(16), 6191-6197.
76. G. Jing, H. B. Eluru, A. Polaczyk, B. Kinkle, D. B. Oerther, and I. Papautsky, “Paraffin surfaces for culture-based detection of mycobacteria in environmental samples,” J. Micromech. Microeng., 2005, 15(2), 270-276.
77. G. Jing, G. Hollis, A. Polaczyk, H. B. Eluru, B. Kinkle, D. B. Oerther, and I. Papautsky, “Developing rapid detection of mycobacteria using microwaves,” Analyst, 2004, 129(10), 963-969.
78. J. Narasimhan and I. Papautsky, “Polymer embossing tools for rapid prototyping plastic microfluidic devices,” J. Micromech. Microeng., 2004, 14(1), 96-103.
79. P. Srinivasan, F. R. Beyette, and I. Papautsky, “Micromachined arrays of cantilevered glass probes,” Applied Optics, 2004, 43(4), 776-782.
80. I. Nikcevic, A. Bange, E. T. K. Peterson, I. Papautsky, W. R.Heineman, H. B. Halsall, and C. J. Seliskar, “Imaging fluorescently labeled microbeads on polymer surfaces using epifluorescence microscopy,” Sci. Technol. Safety, 2004, 2, 35-40.
81. I. Papautsky, S. Mohanty, R. Weiss, and A. B. Frazier, “High lane density slab-gel electrophoresis using micromachined instrumentation,” Electrophoresis, 2001, 22, 3908-3915.
82. I. Papautsky, J. Brazzle, H. Swerdlow, and A. B. Frazier, “Micromachined pipette arrays,” IEEE Trans. Biomed. Eng., 2000, 47, 812-819.
83. J. Brazzle, I. Papautsky, and A. B. Frazier, “Hollow metallic micromachined needle arrays,” Biomedical Microdevices, 2000, 2, 197-205.
84. A. B. Frazier, K. D. Caldwell, B. K. Gale, and I. Papautsky, “Integrated micromachined components for biological analysis systems,” Int. J. Micromech., 2000, 1(1), 67-84.
85. T. Ameel, I. Papautsky, R. O. Warrington, R. S. Wegeng, and M. K. Drost, “Miniaturization technologies for advanced energy conversion and transfer systems,” AIAA Journal of Propulsion and Power, 2000, 16(4), 577-582.
86. I. Papautsky, J. Brazzle, T. Ameel, and A. B. Frazier, “Laminar fluid behavior in microchannels using micropolar fluid theory,” Sensors Actuators A, 1999, 73, 101-108.
87. J. Brazzle, I. Papautsky, and A. B. Frazier, “Micromachined hollow metallic needle arrays for use in drug delivery or fluid extraction,” IEEE Engineering in Medicine and Biology Society Magazine, 1999, 6, 53-58.
Page 7 of 20
88. I. Papautsky, J. Brazzle, H. Swerdlow and A. B. Frazier, “A low temperature, IC compatible process for fabricating surface micromachined metallic microchannels,” J. Microelectromech. Syst., 1998, 7(2), 267-273.
Book Chapters 1. N. Nivedita, X. Wang and I. Papautsky, “Cell Separation Using Inertial Microfluidics,” in H. Fan, ed.,
Circulating Tumor Cells: Isolation and Analysis, John Wiley and Sons, 2016. 2. X. Wang, J. Zhou, and I. Papautsky, “Characterization of microfluidic devices using microparticles,”
in D. Li, 2nd ed., Encyclopedia of Microfluidics and Nanofluidics, Springer-Verlag, Berlin, Germany, 2013.
3. N. Nivedita, J. Zhou, and I. Papautsky, “Spiral Inertial Microfluidic Devices for Cell Separations,” in D. Li, 2nd ed., Encyclopedia of Microfluidics and Nanofluidics, Springer-Verlag, Berlin, Germany, 2013.
4. A. Banerjee, Y. Liu, and I. Papautsky, “Virtual electrowetting channels,” in D. Li, 2nd ed., Encyclopedia of Microfluidics and Nanofluidics, Springer-Verlag, Berlin, Germany, 2013.
5. W.-H. Lee, J.-H. Lee, W.-H. Choi, I. Papautsky, and P. L. Bishop, “Needle-Type Environmental Sensors,” Spatial, Thermal, and Radiation Measurement, SPi Global Publishing, 2013.
6. J.-H. Lee, Y. Seo, W.-H. Lee, P. L. Bishop, and I. Papautsky, “Needle-type multi-analyte MEMS sensor arrays for in situ measurements in biofilms,” in V. Shal (ed.), Emerging Environmental Technologies, vol. 2, Springer, 2010.
7. I. Papautsky and Ali Asgar S. Bhagat, “Microflow Visualization Techniques,” in D. Li, ed., Encyclopedia of Microfluidics and Nanofluidics, Springer-Verlag, Berlin, Germany, 2008, pp. 1325-1334.
8. I. Papautsky and E. T. K Peterson, “Micromolding,” in D. Li, ed., Encyclopedia of Microfluidics and Nanofluidics, Springer-Verlag, Berlin, Germany, 2008, pp. 1256-1267.
9. I. Papautsky and A. Pais, “On-Chip Waveguides,” in D. Li, ed., Encyclopedia of Microfluidics and Nanofluidics, Springer-Verlag, Berlin, Germany, 2008, pp. 1544-1553.
10. I. Papautsky, “Hot embossing for lab-on-a-chip applications,” in W. Wang and S. A. Soper, eds., BioMEMS: Technology and Applications, CRC Press, 2007, pp. 117-143.
11. I. Papautsky, “Culture-based biochip for rapid detection of environmental mycobacteria,” in W. Wang and S. A. Soper, eds., BioMEMS Devices and Systems, CRC Press, 2007, pp. 299-325.
12. E. T. K. Peterson and I. Papautsky, “Microtextured polydimethylsiloxane substrates for culturing mesenchymal stem cells,” in S. Minteer, ed., Microfluidic Techniques: Reviews and Protocols, Totowa, NJ: Humana Press, 2006, pp. 179-197.
13. D. I. Bylski-Austrow, D. L. Glos, F. E. Sauser, I. Papautsky, A. H. Crawford, and E. J. Wall, “Bilateral intra-annular spinal compressive stresses in vivo,” in D. Uyttendaele and P. H. Dangerfield, eds., Research into Spinal Deformities 5, IOS Press: Amsterdam, The Netherlands, 2006, pp. 398-403.
Refereed Conference Proceedings and Presentations (not including abstracts and posters presented without proceedings publication) 1. X. Wang and I. Papautsky, “Inertial microfluidic vortex sorter for continuous isolation of rare cells
from blood with 15,000× enhanced purity,” 19th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2015), Gyeongju, Korea, October 25-29, 2015.
2. N. Nivedita, N. Garg, W. Feng, A. Lee, and I. Papautsky, “Integrated microfluidic system for rare cell separation and enrichment,” 19th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2015), Gyeongju, Korea, October 25-29, 2015.
3. P. Mukherjee, X. Wang, and I. Papautsky, “Single stream inertial focusing in triangular microchannels,” 19th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2015), Gyeongju, Korea, October 25-29, 2015.
4. P. Mukherjee, M. A. Kandadai, G. J. Shaw, C. K. Holland, and I. Papautsky, “Generation of drug loaded echogenic liposomes using microfluidic hydrodynamic focusing,” 19th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2015), Gyeongju, Korea, October 25-29, 2015.
5. N. Nivedita, S. Kasper, and I. Papautsky, “Isolation of sub-populations of prostate cancer cells using inertial microfluidics,” Gordon Research Conference on Microfluidics, West Dover, VT, May 31 - June 5, 2015.
Page 8 of 20
6. X. Wang and I. Papautsky, “Inertial microfluidics for cell counting,” Gordon Research Conference on Microfluidics, West Dover, VT, May 31 - June 5, 2015.
7. W. Kang, X. Pei, A. Bange, E. Haynes, W. Heineman, I. Papautsky, “Point-of-Care Sensor with Interdigitated Array Electrodes for Lead Determination,” 227th ElectroChemical Society (ECS) Meeting, Chicago, IL, May 24-28, 2015.
8. X. Wang, W. Kang, I. Papautsky, “A Paper-Based Reagent Storage Approach for Point-of-Care Electrochemical Sensing,” 227th ElectroChemical Society (ECS) Meeting, Chicago, IL, May 24-28, 2015.
9. X. Wang and I. Papautsky, “Multimodal Size-Based Inertial Microfluidic Sorters”, ASME Global Congress on NanoEngineering for Medicine and Biology (NEMB2015), Minneapolis, MN, April 19-22, 2015.
10. E. Papautsky, W. Kang, E. Haynes, W. Heineman, I. Papautsky, “The Case for a Human Factors Perspective to Inform Design of Point-of-Care Systems,” 2015 International Symposium on Human Factors and Ergonomics in Health Care, Baltimore, MD, April 26-29, 2015.
11. X. Wang, N. Kaval, and I. Papautsky, “Single-Position Inertial Focuser for Sheathless Flow Cytometry,” IEEE EMBS Micro and Nanotechnology in Medicine Conference, Turtle Bay Resort, Oahu, HI, December 8-12, 2014.
12. X. Wang and I. Papautsky, “Multimodal Size-Based Microfluidic Sorters,” IEEE EMBS Micro and Nanotechnology in Medicine Conference, Turtle Bay Resort, Oahu, HI, December 8-12, 2014.
13. W. Kang, X. Pei, E. Haynes, A. Bange, W. R. Heineman, I. Papautsky, “Electrochemical Sensors for Point-Of-Care Metal Determination,” IEEE EMBS Micro and Nanotechnology in Medicine Conference, Turtle Bay Resort, Oahu, HI, December 8-12, 2014.
14. N. Nivedita and I. Papautsky, “Use of secondary Dean vortices in spiral microchannels for cell separations,” 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2014), San Antonio, Texas, October 26 – 30, 2014.
15. X. Wang and I. Papautsky, “Sheathless, high-throughput single-position focusing of microparticles in a straight microchannel,” 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2014), San Antonio, Texas, October 26 – 30, 2014.
16. X. Wang, C. Liedert, R. Liedert, and I. Papautsky, “A low-aspect-ratio, roll-to-roll hot embossed inertial microfluidic sorter,” 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2014), San Antonio, Texas, October 26 – 30, 2014.
17. Y. Liu, A. Banerjee and I. Papautsky, “Electrode-based droplet volume metering in electrowetting-on-dielectrics,” 9th International Meeting on Electrowetting and Related Micro/Electrofluidic Science and Technology, Cincinnati, OH, USA, June 23-25, 2014.
18. A. Banerjee, Y. Liu, J. Noh, P. Rack and I. Papautsky, “Programmable interaction between channels and droplets,” 9th International Meeting on Electrowetting and Related Micro/Electrofluidic Science and Technology, Cincinnati, OH, USA, June 23-25, 2014.
19. X. Pei, W. Kang, E. Haynes, A. Bange, W. R. Heineman, I. Papautsky, “Electrochemical Sensors for Point-of-Care Measurements of Metals,” 224th ElectroChemical Society (ECS) Meeting, San Francisco, CA, October 27-31, 2013.
20. N. Nivedita, P. Ligrani, and I. Papautsky, “Evolution of secondary dean vortices in spiral microchannels for cell separations,” the 17th International Conference on Miniaturized Systems for Chemistry and Life Sciences (microTAS), Freiburg, Germany, October 27-31, 2013.
21. X. Wang, J. Zhou and I. Papautsky, “Inertial microfluidic band-pass separations,” the 17th International Conference on Miniaturized Systems for Chemistry and Life Sciences (microTAS), Freiburg, Germany, October 27-31, 2013.
22. A. Banerjee, Y. Liu, and I. Papautsky, “Precise nanoliter droplet generation and volume control in electrowetting microchannels,” the 17th International Conference on Miniaturized Systems for Chemistry and Life Sciences (microTAS), Freiburg, Germany, October 27-31, 2013.
23. W. Kang, W. Yue, X. Pei, A. Bange, E. Haynes, W. R. Heineman, and I. Papautsky, “USB-type point-of-care sensor for stripping analysis of trace metals,” the 17th International Conference on Miniaturized Systems for Chemistry and Life Sciences (microTAS), Freiburg, Germany, October 27-31, 2013.
24. X. Pei, W. Kang, W. Yue, A. Bange, W. R. Heineman, and I. Papautsky, “Disposable copper-based electrochemical microsensor for analysis of lead in environmental samples,” Transducers’13, Barcelona, Spain, June 16-20, 2013.
Page 9 of 20
25. J. Zhou, P.V. Giridhar, S. Kasper and I. Papautsky, “Complete cell separation by modulating inertial force,” Transducers’13, Barcelona, Spain, June 16-20, 2013.
26. W. Kang, W. Yue, X. Pei, A. Bange, E. Haynes, W. R. Heineman, and I. Papautsky, “Palladium-based sensor for electrochemical detection of manganese in the environment,” Transducers’13, Barcelona, Spain, June 16-20, 2013.
27. X. Wang, J. Zhou and I. Papautsky, “Inertial separation of particles with small size-variation using self-releasing micro-vortex,” Transducers’13, Barcelona, Spain, June 16-20, 2013.
28. X. Wang, J. Zhou and I. Papautsky, “Continuous rare cell extraction using self-releasing vortex in an inertial microfluidic device,” the 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences (microTAS), Okinawa, Japan, October 28-November 1, 2012.
29. A. Banerjee, Y. Liu, J. Heikenfeld and I. Papautsky, “Deterministic splitting of electrowetting microchannels,” the 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences (microTAS), Okinawa, Japan, October 28-November 1, 2012.
30. N. Nivedita and I. Papautsky, “Sorting of blood in spiral microchannels,” the 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences (microTAS), Okinawa, Japan, October 28-November 1, 2012.
31. X. Pei, W. Kang, W. Yue, A. Bange, H. R. Wong, W. R. Heineman, and I. Papautsky, “Copper-based sensor for point-of-care meaurement of zinc in serum,” the 16th International Conference on Miniaturized Systems for Chemistry and Life Sciences (microTAS), Okinawa, Japan, October 28-November 1, 2012.
32. N. Nivedita, P. Ligrani, and I. Papautsky, “Spiral Inertial Microfluidic Devices for Continuous Blood Cell Separation,” SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, San Jose, CA, January 20-25, 2012.
33. X. Pei, W. Kang, W. Yue, A. Bange, H. R. Wong, W. R. Heineman, and I. Papautsky, “Lab-on-a-chip sensor for measuring Zn by stripping voltammetry,” SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, San Jose, CA, January 20-25, 2012.
34. Li Shen, Mike Ratterman, Tyler Stites, David Klotzkin, Ian Papautsky, “Multiplexed fluorescence detection for point-of-care,” SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, San Jose, CA, January 20-25, 2012.
35. J. Zhou, P. V. Giridhar, S. Kasper, and I. Papautsky, “Extraction and enrichment of rare cells in a simple inertial microfluidic device,” the 15th International Conference on Miniaturized Systems for Chemistry and Life Sciences (microTAS), Seattle, WA, October 2-6, 2011.
36. L. Shen, M. Ratterman, D. Klotzkin, and I. Papautsky, “Portable multi-color fluorescent detection for point-of-care,” the 15th International Conference on Miniaturized Systems for Chemistry and Life Sciences (microTAS), Seattle, WA, October 2-6, 2011.
37. A. Banerjee, E. Kreit, J. Heikenfeld and I. Papautsky, “Programmable microfluidics in virtual electrowetting channels,” the 15th International Conference on Miniaturized Systems for Chemistry and Life Sciences (microTAS), Seattle, WA, October 2-6, 2011.
38. N. Nivedita, P. V. Giridhar, S. Kasper, and I. Papautsky, “Sorting human prostate epithelial (HPET) cells in an inertial microfluidic device,” the 15th International Conference on Miniaturized Systems for Chemistry and Life Sciences (microTAS), Seattle, WA, October 2-6, 2011.
39. M. Ratterman, L. Shen, D. Klotzkin, A. Bhattacharya, and I. Papautsky, “CMOS-based luminescent CO2 sensor,” the 15th International Conference on Miniaturized Systems for Chemistry and Life Sciences (microTAS), Seattle, WA, October 2-6, 2011.
40. S. Sukhavasi, P. Jothimuthu, I. Papautsky, and F. R. Beyette, “Development of a Point-of-Care Device to Quantify Serum Zinc to Aid the Diagnosis and Follow-up of Pediatric Septic Shock,” 33rd Annual International Conference of the IEEE Engineering in Medicine and Biology Society, Boston, MA, August 30-September 3, 2011.
41. A. Chatterjee, S. S. Kuntaegowdanahalli, and I. Papautsky, “Inertial microfluidics for continuous separation of cells and particles,” SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, San Jose, CA, January 19-24, 2011.
42. A. Banerjee, E. Kreit, M. Dhindsa, J. Heikenfeld, and I. Papautsky, “A new electrowetting lab-on-a-chip platform based on programmable and virtual “wall-less” channels,” SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, San Jose, CA, January 19-24, 2011. (invited).
Page 10 of 20
43. A. A. S. Bhagat, S. S. Kuntaegowdanahalli, and I. Papautsky, “High-throughput sheath-less flow cytometry using inertial microfluidics,” SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, San Jose, CA, January 19-24, 2011.
44. P. Jothimuthu, R. A. Wilson, S. Sukavasi, J. Herren, H. Wong, F. R. Beyette, W. R. Heineman, and I. Papautsky, “Lab-on-a-chip sensor for measuring zinc in blood serum,” in Proc. IEEE Conference on Sensors, Waikoloa, Hawaii, November 1-5, 2010.
45. W.-H. Choi, J. R. Shann, and I. Papautsky, “Multi-analyte needle-type sensor for measurement of ph, phosphate, and redox potential in soil,” in Proc. IEEE Conference on Sensors, Waikoloa, Hawaii, November 1-5, 2010.
46. V.D. Jangampet, R. Dixit, I. Papautsky, and D. Klotzkin, “Simultaneous, single-detector fluorescence detection of multiple fluorescent dyes,” in Proc. IEEE Conference on Sensors, Waikoloa, Hawaii, November 1-5, 2010.
47. L. Shen, M. Ratterman, D. Klotzkin, and I. Papautsky, “A portable oxygen sensor based on a CMOS detector,” in Proc. IEEE Conference on Sensors, Waikoloa, Hawaii, November 1-5, 2010.
48. L. Shen, M. Ratterman, D. Klotzkin, and I. Papautsky, “CMOS-based luminescence detection for lab-on-a-chip,” in Proc. International Conference on Chemical and Biochemical Analysis Systems
, Groningen, The Netherlands, October 3-7, 2010. 49. P. Jothimuthu, R. A. Wilson, S. Sukavasi, J. Herren, H. Wong, F. R. Beyette, W. R. Heineman, and I.
Papautsky, “Point-of-care measurement of zinc in blood serum,” in Proc. International Conference on Chemical and Biochemical Analysis Systems (microTAS), Groningen, The Netherlands, October 3-7, 2010.
50. T.E. Kagalwala, J. Zhou, and I. Papautsky, “Continuous size-based separation of microparticles in straight channels,” in Proc. International Conference on Chemical and Biochemical Analysis Systems (microTAS), Groningen, The Netherlands, October 3-7, 2010.
51. J. Yang, M. Dhindsa, S. Kwon, J. Park, P. Rack, I. Papautsky, and J. Heikenfeld, “Programmable electrowetting channels,” 18th IEEE University Government Industry Micro/Nano Symposium (UGIM’10), Lafayette, IN, July 13-16, 2010.
52. A. A. S. Bhagat, S.S. Kuntaegowdanahalli, and I. Papautsky, “High-throughput flow cytometry using inertial microfluidics,” in Proc. International Conference on Chemical and Biochemical Analysis Systems (microTAS), Jeju, Korea, November 1-5, 2009.
53. P. Jothimuthu, E. N.Haynes, and I. Papautsky, “Lab-on-a-chip for detection of manganese and zinc in blood,” in Proc. International Conference on Chemical and Biochemical Analysis Sys , Jeju, Korea, November 1-5, 2009.
54. A. A. S. Bhagat, S.S. Kuntaegowdanahalli, and I. Papautsky, “High-throughput flow cytometry using inertial microfluidics,” in Proc. International Conference on Chemical and Biochemical Analysis Systems (microTAS), Jeju, Korea, November 1-5, 2009.
55. P. Jothimuthu, E. N.Haynes, and I. Papautsky, “Lab-on-a-chip for detection of manganese and zinc in blood,” in Proc. International Conference on Chemical and Biochemical Analysis Systems (microTAS), Jeju, Korea, November 1-5, 2009.
56. W. Choi, W.-H. Lee, P. Bishop, and I. Papautsky, “Integrated dissolved oxygen-compensated needle-type sensor for phosphate analysis of biological and environmental samples,” in Proc. International Conference on Chemical and Biochemical Analysis Systems (microTAS), Jeju, Korea, November 1-5, 2009.
57. P. Jothimuthu, E. Haynes, I. Papautsky, “Lab-on-a-chip sensor for point-of-care measurement of manganese exposure,” in Proc. Transducers ’09, Denver, CO, June 22-25, 2009. (4 pages)
58. S.S. Kuntaegowdanahalli, A. A. S. Bhagat, I. Papautsky, “Continuous multi-particle separation using deterministic focusing in spiral microchannels,” in Proc. Transducers ’09, Denver, CO, June 22-25, 2009. (4 pages)
59. P. Jothimuthu, E. Haynes, I. Papautsky, “Lab-on-a-Chip Sensor for Assessment of Manganese Exposure,” in Proc. IEEE Conference on Sensors, Lecce, Italy, October 26-29, 2008.
60. Y. Shuai, A. Banerjee, D. Klotzkin, I. Papautsky, “On-Chip Fluorescence Detection with Organic Thin Film Devices for Disposable Lab-on-a-Chip Sensors,” in Proc. IEEE Conference on Sensors, Lecce, Italy, October 26-29, 2008.
61. T.-S. Lim, J.-H. Lee, I. Papautsky, “Effects of Recess Dimensions on Performance of the Recessed Cathode Dissolved Oxygen Sensor,” in Proc. IEEE Conference on Sensors, Lecce, Italy, October 26-29, 2008.
Page 11 of 20
62. J.-H. Lee, P. Bishop, I. Papautsky, “Needle-Type Sensor Array for Multi-Analyte in Situ Measurements,” in Proc. IEEE Conference on Sensors, Lecce, Italy, October 26-29, 2008.
63. A. A. S. Bhagat, S.S. Kuntaegowdanahalli, I. Papautsky, “Passive microfluidic sorting of particles using differential migration,” in Proc. International Conference on Chemical and Biochemical Analysis Systems (microTAS), San Diego, CA, October 12-16, 2008.
64. Y. Shuai, A. Banerjee, D. Klotzkin, I. Papautsky, “A high-sensitivity on-chip fluorescence detection for lab-on-a-chip,” in Proc. International Conference on Chemical and Biochemical Analysis Systems (microTAS), San Diego, CA, October 12-16, 2008.
65. P. Jothimuthu, A. A. S. Bhagat, I. Papautsky, “Rapid prototyping and non-planar patterning using photodefinable PDMS,” in Proc. International Conference on Chemical and Biochemical Analysis
, San Diego, CA, October 12-16, 2008. 66. W. H. Lee, J.-H. Lee, P.L. Bishop, and I. Papautsky, “Biological Application of MEMS Microelectrode
Sensors for Direct Measurement of Phosphate in the Enhanced Biological Phosphorus Removal Process,” Annual Water Environment Federation Technical Exhibition and Conference (WEFTEC’08), Chicago, IL, October 18-22, 2008.
67. A. A. S. Bhagat, S. S. Kuntaegowdanahalli, D. D. Dionysiou, and I. Papautsky, “Lab-on-a-chip for passive particle separations in environmental applications,” 236th American Chemical Society Meeting, Philadelphia, PA, August 17-21, 2008. (4 pages)
68. P. Jothimuthu, A. A. S. Bhagat, and I. Papautsky, “PhotoPDMS: Photodefinable PDMS for Rapid Prototyping,” 17th IEEE University Government Industry Micro/Nano Symposium (UGIM’08), Louisville, KY, July 13-16, 2008. (4 pages)
69. Y. Shuai, A. Banerjee, D. Klotzkin, and I. Papautsky, “On-chip fluorescence detection using organic thin film devices for a disposable lab-on-a-chip,” 17th IEEE University Government Industry Micro/Nano Symposium (UGIM’08), Louisville, KY, July 13-16, 2008. (4 pages)
70. A. Banerjee, Y. Shuai, I. Papautsky, and D. Klotzkin, “High-sensitivity MEMS based on-chip fluorescence detection system: measurement and analysis of ultimate sensitivity limits,” 17th IEEE University Government Industry Micro/Nano Symposium (UGIM’08), Louisville, KY, July 13-16, 2008. (5 pages)
71. K. A. Comandur, A. A. S. Bhagat, S. Dasgupta, I. Papautsky, and R. K. Banerjee, “Electroosmotic injection and chemical kinetics in micro reactors,” ASME 2008 Summer Bioengineering Conference (SBC2008), Marco Island, Florida, June 25-29, 2008. (4 pages)
72. A. A. S. Bhagat, S. S. Kuntaegowdanahalli, D. D. Dionysiou, and I. Papautsky, “Spiral microfluidic nanoparticle separators,” SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, vol. 6886, San Jose, CA, January 19-24, 2008. (8 pages)
73. A. M. Sampson, E. T. K. Peterson, and I. Papautsky, “Interdigitated array microelectrode capacitive sensor for detection of paraffinophilic Mycobacteria,” SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, vol. 6886, San Jose, CA, January 19-24, 2008. (9 pages)
74. A. A. S. Bhagat, K. T. Wurm, and I. Papautsky, “Evaluation of passive planar microfluidic devices for mixing of particle flows,” SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, vol. 6886, San Jose, CA, January 19-24, 2008. (11 pages)
75. A. Banerjee, A. Pais, D. Klotzkin, and I. Papautsky, “On-chip high-sensitivity fluorescence detection system using cross-polarization and organic thin film devices for a disposable lab-on-a-chip,” in Proc.
, Paris, France, October 7-10, 2007. (4 pages)
76. J.-H Lee, W. H. Lee, P. L. Bishop, and I. Papautsky, “MEMS microelectrode sensor for in situ monitoring of phosphate in biological applications,” 234th American Chemical Society Meeting, Boston, MA, August 19-23, 2007. (4 pages)
77. D. B. Oerther, K. Mack, E. T. K. Peterson, I. Papautsky, B. Kinkle, “BioMEMS device to track mycobacterium in clinical environments,” 234th American Chemical Society Meeting, Boston, MA, August 19-23, 2007. (7 pages)
78. I. Papautsky, J.-H. Lee, Y. Seo, T.-S. Lim, and P. L. Bishop, “Needle-type sensor array for simultaneous measurement of dissolved oxygen and redox potential in situ,” 234th American Chemical Society Meeting, Boston, MA, August 19-23, 2007. (4 pages)
79. A. A. S. Bhagat, S. Dasgupta, R. K. Banerjee, and I. Papautsky, “Effects of microchannel cross-section and applied electric field on electroosmotic mobility,” Transducers ’07, Lyon, France, June 10-14, 2007. (4 pages)
Page 12 of 20
80. A. A. S. Bhagat, P. Jothimuthu, and I. Papautsky, “Photosensitive polydimethylsiloxane (photoPDMS) for rapid and simple polymer fabrication,” Transducers ’07, Lyon, France, June 10-14, 2007. (4 pages)
81. A. Pais, A. Banerjee, D. K. Bandi, D. Klotzkin, and I. Papautsky, “High sensitivity on-chip fluorescence detection based on cross-polarization and thin-film organic photodetectors,” Transducers ’07, Lyon, France, June 10-14, 2007. (4 pages)
82. A. Pais, H. Mu, E. T. K. Peterson, A. Bannerjee, I. Papautsky, and D. Klotzkin, “Cross-polarization scheme for fluorescence detection for biochip and biomedical applications,” SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, vol. 6465, San Jose, CA, January 20-25, 2007. (8 pages)
83. A. A. S. Bhagat, E. T.K. Peterson, and I. Papautsky, “A simple planar micromixer with low-pressure drop for disposable lab-on-a-chip (LOC) systems,” SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, vol. 6465, San Jose, CA, January 20-25, 2007. (7 pages)
84. K. Zhou and I. Papautsky, “Optimization of COC hot embossing with soft PDMS tools,” SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, vol. 6465, San Jose, CA, January 20-25, 2007. (7 pages)
85. I. Nikcevic, M. Rust, A. A. S. Bhagat, and I. Papautsky, “A simple passive micromixer using recombinant multiple flow streams,” SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, vol. 6465, San Jose, CA, January 20-25, 2007. (6 pages)
86. J.-H. Lee, T.-S. Lim, X. Wei, and I. Papautsky, “Microelectrode Sensor for In Situ Dissolved Oxygen Measurements,” in Proc. IEEE Sensors Conference, Daegu, Korea, October 22-25, 2006. (4 pages)
87. J. Parasuraman and I. Papautsky, “Fabrication of Nanotips for Microelectrode Array Sensors Using Meniscus Etching,” in Proc. IEEE Sensors Conference, Daegu, Korea, October 22-25, 2006. (4 pages)
88. J.-H. Lee, T.-S. Lim, X. Wei, and I. Papautsky, “Dissolved Oxygen Microelectrode Sensor for In Situ Biological Applications,” in Proc. International Conference on Chemical and Biochemical Analysis
, Tokyo, Japan, November 5-9, 2006. (4 pages) 89. A. A. S. Bhagat, P. Jothimuthu, and I. Papautsky, “Photodefinable PDMS for rapid prototyping of
disposable lab-on-a-chip systems,” in Proc. International Conference on Chemical and Biochemical , Tokyo, Japan, November 5-9, 2006. (4 pages)
90. K. L. Mack, E. T. K. Peterson, D. Mast, I. Papautsky, B. Kinkle, and D. B. Oerther, “A novel approach to the detection of Mycobacterium avium and Mycobacterium intracellulare (MAC) in water distribution systems,” in Proc. 8th International Water Distribution System Analysis Symposium, American Society of Civil Engineers, Cincinnati, OH, August 27 – 30, 2006. (8 pages)
91. A. A. S. Bhagat, E. T.K. Peterson, and I. Papautsky, “Passive micromixer with break-up obstructions,” SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, vol. 6112, San Jose, CA, January 21-26, 2006. (10 pages)
92. A. Piruska, K. Zhou, E. T.K. Peterson, I. Papautsky, and C. J. Seliskar, “Characterization of SU8 optical multimode waveguides for integrated optics and sensing on microchip devices,” SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, vol. 6112, San Jose, CA, January 21-26, 2006. (8 pages)
93. X. Wei, J.-H. Lee, W. Timmons, F. Beyette, P. Bishop, and I. Papautsky, “Silicon microelectrode array sensors for in situ field-based environmental monitoring,” in Proc. IEEE Sensors Conference, Irvine, CA, Nov 1-4, 2005. (4 pages)
94. A. Das, P. R. Bhadri, A. S. Kumar, A. Jang, J.-H. Lee, W. Timmons, I. Papautsky, P. L. Bishop, and F. R. Beyette, “A MEMS based microelectrode sensor with integrated signal processing circuitry,” in Proc. 48th IEEE Midwest Symposium on Circuits and Systems, Cincinnati, OH, August 7-10, 2005. (4 pages)
95. J.-H. Lee, A. Jang, P. R. Bhadri, S. A. Kumar, W. Timmons, F. R. Beyette, P. L. Bishop, and I. Papautsky, “Microelectrode arrays for in situ measurement of redox potentials,” in Proc. Transducers 05, Seoul, Korea, June 5-9, 2005, pp. 1218-1221. (4 pages) (19.2% acceptance rate for oral presentations)
96. A. A. S. Bhagat, G. Dagani, E. T. K. Peterson, J.-H. Lee, and I. Papautsky, “Passive micromixer with obstructions for lab-on-a-chip applications,” in Proc. SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, vol. 5718, San Jose, CA, January 22-27, 2005, pp. 291-297. (7 pages)
Page 13 of 20
97. J.-H. Lee, G. Dagani, E. T. K. Peterson, and I. Papautsky, “Rapid prototyping of plastic microfluidic devices in COC,” in Proc. SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, vol. 5718, San Jose, CA, January 22-27, 2005, pp. 82-91. (10 pages)
98. I. Nikcevic, A. Bange, E. T. K. Peterson, I. Papautsky, W. R. Heineman, H. B. Halsall, and C. J. Seliskar, “Adsorption of fluorescently labeled microbeads on PDMS surfaces,” in Proc. SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, vol. 5718, San Jose, CA, January 22-27, 2005, pp. 159-167. (9 pages)
99. F. E. Sauser, C. Li, R. G. Azizkhan, C. Ahn, and I. Papautsky, “Pressure microsensing catheters for neonatal care,” in Proc. IEEE Sensors Conference, Vienna, Austria, October 24-27, 2004, pp. 1475-1478. (4 pages)
100. J.-H. Lee, R. R. Myers, A. Jang, P. Bhadri, F. Beyette, W. Timmons, P. L. Bishop, and I. Papautsky, “Potentiometric microelectrode sensors for in situ environmental monitoring,” in Proc. IEEE Sensors Conference, Vienna, Austria, October 24-27, 2004, pp. 361-364. (4 pages)
101. F. E. Sauser, D. Glos, D. Bylski-Austrow, and I. Papautsky, “Pressure sensors for in vivo measurements on spinal growth plates,” in Proc. IEEE Engineering in Medicine and Biology Conference, San Francisco, CA, September 1-5, 2004, pp. 2430-2433. (4 pages)
102. B. Kim, E. T. K. Peterson, and I. Papautsky, “Long-term stability of plasma oxidized PDMS surfaces,” in Proc. IEEE Engineering in Medicine and Biology Conference, San Francisco, CA, September 1-5, 2004, pp. 5013-5016. (4 pages)
103. G. Jing, D. B. Oerther, and I. Papautsky, “Culture-based biochip for environmental monitoring,” in Proc. SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, vol. 5345, San Jose, CA, January 25-27, 2004, pp. 68-77. (10 pages)
104. C. Li, F. E. Sauser, R. G. Azizkhan, C. H. Ahn, and I. Papautsky, “Polymer flip-chip bonding of pressure sensors on flexible Kapton film for neonatal catheters,” in Proc. IEEE International Conference on Micro Electro Mechanical Systems (MEMS), Maastricht, The Netherlands, January 25-29, 2004, pp. 749- 752. (4 pages)
105. G. Jing, A. Polaczyk, D. B. Oerther, and I. Papautsky, “Culture-based microfluidic device for environmental monitoring,” in Proc. International Conference on Solid-State Sensors and Actuators (Transducers ’03), Boston, MA, June 8-12, 2003, pp. 1243-1246. (4 pages)
106. A. Polaczyk, I. Papautsky, B. Kinkle, and D. B. Oerther, “Miniaturized Culturing Devices to Screen for Mycolata in the Environment,” in Proc. American Chemical Society, Division of Environmental Chemistry, New Orleans, LA, March 23-27, 2003, CD-ROM, 4 pages.
107. J. Narasimhan and I. Papautsky, “Rapid fabrication of hot embossing tools using PDMS,” in Proc. SPIE Microfluidics, BioMEMS, and Medical Microsystems Conference, vol. 4982, San Jose, CA, January 25-31, 2003. (10 pages)
108. P. Srinivasan, F. Beyette, and I. Papautsky, “Micromachined near-filed probe arrays,” in Proc. SPIE MOEMS and Miniaturized Systems Conference, vol. 4983, San Jose, CA, January 25-31, 2003, pp. 149-158. (10 pages)
109. G. Hollis, D. Oerther, and I. Papautsky, “Rapid detection of microorganisms using microwaves,” in Proc. Micro Total Analysis Systems (microTAS) Conference, Nara, Japan, November 2-7, 2002, pp. 897-899. (3 pages)
110. H. Eluru, G. Jing, A. Polaczyk, B. Kinkle, D. B. Oerther, and I. Papautsky, “Fabrication of Culture-Based Biochips for Detecting Microorganisms in Environmental Samples,” in Proc. IEEE Engineering in Medicine and Biology Conference, Huston, TX, October 23-26, 2002. (4 pages)
111. P. Srinivasan, F. Beyette, and I. Papautsky, “Fabrication of cantilevered near-filed probe arrays using MEMS technology,” in Proc. 45th IEEE Midwest Symposium on Circuits and Systems, Tulsa, OK, August 7-10, 2002, pp. 176-179. (4 pages)
112. H. Eluru, A. Polaczyk, R. Chhabra, B. Kinkle, D. Oerther, and I. Papautsky, “Culture-based biochips for measuring microorganisms in waster water treatment,” in Proc. IEEE EMBS Conference on Microtechnologies in Medicine and Biology, Madison, WI, May 2-4, 2002, pp. 152-155. (4 pages)
113. H. Eluru, A. Polaczyk, B. Kinkle, D. Oerther, and I. Papautsky, “Culture-based biochips for detecting Nocardiaforms in environmental samples,” in Proc. 28th IEEE EMBS Northeastern Bioengineering Conference, Philadelphia, PA, April 20-21, 2002, pp. 131-132. (2 pages)
114. R. Divakar, D. Butler, I. Papautsky, “Room temperature low-cost UV-cured adhesive bonding for microfluidic biochips,” in Proc. International Conference on Chemical and Biochemical Analysis Systems , Monterey, CA, October 21-25, 2001. (3 pages)
Page 14 of 20
115. I. Papautsky, T. Ameel, and A. B. Frazier, “A review of laminar single-phase flow in microchannels,” in Proc. ASME International Mechanical Engineering Congress, November 11-16, New York, NY, 2001, pp. 495-503, (7 pages)
116. B. K. Gale, R. S. Besser, I. Papautsky, J. D. Brazzle, A. B. Frazier, “Packaging for Biomedical Analysis Systems,” in Proc. Advanced Technology Workshop (ATW) for MEMS and Microsystem Packaging and Integration, Orlando, FL, November 10-12, 2000. (4 pages)
117. I. Papautsky, S. Mohanty, R. Weiss, and A. B. Frazier, “High lane density slab gel electrophoresis by micromachined instrumentation,” in Proc. 21st International Conference of the IEEE Engineering in Medicine and Biology Society (EMBS ’99), Atlanta, GA, October 13-16, 1999. (2 pages)
118. A. B. Frazier, I. Papautsky, T. Edwards, and B. Gale, “Integrated Sample Preparation Systems for Miniaturized Biochemical Analysis,” in Proc. International Symposium on Mechatronics and Human Science (MHS ’99), Nagoya, Japan, Nov. 23-26, 1999. (6 pages)
119. I. Papautsky, S. Mohanty, T. Ameel, and A. B. Frazier, “Effects of rectangular microchannel aspect ratio on laminar friction constant,” in Proc. SPIE Micro Fluidic Devices and Systems, Santa Clara, CA, Sep. 20-22, 1999, pp. 147-158. (12 pages)
120. I. Papautsky, S. Mohanty, R. Weiss, and A. B. Frazier, “Micromachined pipette arrays for high lane density slab gel electrophoresis,” in Proc. 10th International Conference on Solid-State Sensors and Actuators (Transducers ’99), Sendai, Japan, June 7-10, pp. 52-55, 1999. (4 pages)
121. I. Papautsky, A. B. Frazier, and T. Ameel, “Single-phase fluid flow in microchannels,” in Proc. 2nd International Symposium on Advanced Energy Conversion Systems and Related Technologies (RAN ’98), Nagoya, Japan, Dec. 1-3, 1998. (6 pages)
122. T. A. Ameel, I. Papautsky, R. O. Warrington, R. S. Wegeng, and M. K. Drost, “Miniaturization technologies for advanced energy conversion and transfer systems,” in Proc. 2nd International Symposium on Advanced Energy Conversion Systems and Related Technologies (RAN ’98), Nagoya, Japan, Dec. 1-3, 1998. (6 pages)
123. I. Papautsky, J. Brazzle, T. Ameel, and A. B. Frazier, “Parallel fluid manipulation using micromachined pipette arrays,” in Proc. SPIE Micro Fluidic Devices and Systems, Santa Clara, CA, Sep. 21-24, 1998, pp. 104-114. (10 pages)
124. J. Brazzle, I. Papautsky, and A. B. Frazier, “Fluid-coupled hollow metallic micromachined needle arrays,” in Proc. SPIE Micro Fluidic Devices and Systems, Santa Clara, CA, Sep. 21-24, 1998, pp. 116-124. (9 pages)
125. J. Brazzle, I. Papautsky, and A. B. Frazier, “Fluid-coupled metallic micromachined needle arrays,” in Proc. 20th International Conference of the IEEE Engineering in Medicine and Biology Society (EMBS ’98), Hong Kong, Oct. 29 – Nov. 1, 1998, pp. 1837-1840. (4 pages)
126. I. Papautsky, J. Brazzle, T. Ameel, and A. B. Frazier, “Microchannel fluid behavior using micropolar fluid theory,” in Proc. 11th IEEE International Workshop on Micro Electro Mechanical Systems (MEMS ’98), Heidelberg, Germany, Jan. 25-29, 1998, pp. 544-549. (6 pages) (16.3% acceptance rate for oral presentation)
127. A. B. Frazier, B. K. Gale, and I. Papautsky, “Micromachined metallic pipettes and bioanalysis systems,” in Proc. International Symposium on Mechatronics and Human Science (MHS ’97), Nagoya, Japan, Oct. 5-8, 1997, pp. 5-12 (8 pages).
128. I. Papautsky, J. Brazzle, H. Swerdlow, and A. B. Frazier, “Micromachined pipette arrays,” in Proc. 19th International Conference of the IEEE Engineering in Medicine and Biology Society (EMBS ’97), Chicago, IL, Oct. 30 - Nov. 2, 1997, pp. 2281-2284. (4 pages)
129. I. Papautsky, A. B. Frazier, and H. Swerdlow, “A low temperature, IC compatible process for fabricating surface micromachined metallic microchannels,” in Proc. 10th IEEE International Workshop on Micro Electro Mechanical Systems (MEMS ’97), Nagoya, Japan, Jan. 26-30, 1997, pp. 317-322. (6 pages) (37.7% acceptance rate)
Educational Articles 1. C. Maltbie, I. Papautsky, S. van den Hoogenhof, D. Eddington, B. Gale, J.-W. Choi, G. Walker
“Expanding the introduction of microfluidics through a problem-based laboratory course to multiple engineering disciplines at five universities,” IEEE Frontiers in Education (FIE) Conference, Washington DC, October 27 - 30, 2010.
Page 15 of 20
2. C. Maltbie, S. van den Hoogenhof, and I. Papautsky, “Work in progress: influences of student experiential background in a problem-based multidisciplinary microfluidics laboratory course,” IEEE Frontiers in Education (FIE) Conference, Washington DC, October 27 - 30, 2010.
3. J.-H. Lee, C. Purdy, and I. Papautsky, “Graduate student experiences and mentor benefits of the preparing future faculty program in engineering,” ASEE Conference, Austin, TX, June 14-17, 2009.
4. J.-H. Lee, A. A. S. Bhagat, K. Davis, and I. Papautsky, “BioMEMS problem-based research senior projects in electrical engineering,” ASEE Conference, Pittsburgh, PA, June 22-25, 2008.
5. I. Papautsky, C. Maltbie, D. Eddington, A. A. S. Bhagat, H. Caicedo, “Introducing microfluidics through a problem-based laboratory course,” ASEE Conference, Pittsburgh, PA, June 22-25, 2008.
6. I. Papautsky and A. A. S. Bhagat, “NSF CCLI: A problem-based microfluidics laboratory course for undergraduates,” ASEE Conference, Honolulu, HI, June 24-27, 2007.
7. I. Papautsky and E. T. K. Peterson, “Integrating BioMEMS and biomedical microsystems into electrical engineering education: a three-year pilot study,” ASEE Conference, Honolulu, HI, June 24-27, 2007.
8. I. Papautsky and A. A. S. Bhagat, “Introducing microfluidics to electrical engineers: an integrated problem-based learning experience,” ASEE Conference, Honolulu, HI, June 24-27, 2007.
9. I. Papautsky and E. T. K. Peterson, “A biomedical microsystems course for electrical engineers,” in Proc. ASEE Conference, Chicago, IL, June 18-21, 2006.
10. J. Bickle, S. Iyer, T. Mantei, I. Papautsky, M. Schulz, V. Shanov, L. Smith, and A. Steckl, “Integration of Nanoscale Science and Technology into Undergraduate Curricula,” in Proc. IEEE Nano Conference, Cincinnati, OH, July 17-20, 2006.
11. Vesselin Shanov, Yun Yeo-Heung, Leigh Smith, Suri S. Iyer, Shalyajit Jadhav, Thang B. Hoang, A. Gorton, M. Schulz, T. Mantei, J. Abel, C. Barbour, N. D'Souza, C. Direnzi, D. Dlesk, Z. Kier, N. Negassi, R. Schaub, K. Seger, R. Wagner, E. Witt, J. Bickle, I. Papautsky, and F. Gerner, “First Experiences Teaching Experimental Nanoscale Science and Technology to Undergraduate Students,” in Proc. IEEE Nano Conference, Cincinnati, OH, July 17-20, 2006.
12. I. Papautsky and E. T. K. Peterson, “Introducing biomedical microsystems into the electrical engineering curriculum,” in Proc. ASEE Conference, Portland, OR, June 12-15, 2005.
PATENTS (from 30+ invention disclosures) Issued Patents 1. Method and System for Analyzing a Colorimetric Assay. 9,506,855 (2016) 2. Spiral Microparticle Separators. 8,208,138 (2012) 3. Methods for preparing devices having metallic hollow microchannels on planar substrate surfaces.
5,876,582 (1999) Patent Applications 4. Single-stream inertial focusing in triangular microchannels. 62/244,997 (filed 10/23/2015) 5. Integrated microfluidic system for sample enrichment and concentration. 62/244,336 (filed
10/21/2015) 6. Single-position focusing and sorting in straight microfluidic channels. 62/068,372 (filed 10/24/2014) 7. Copper-based lab-on-a-chip sensor for public health applications. 61/717,215 (filed 9/23/2012) 8. Sweat stimulation, collection, and sensing systems. 61/620,069 (filed 4/25/2012) 9. Microfluidic Methods for Passive Separation of Cells and Particles. 61/594,732 (filed 2/3/2012) 10. Method, system, and device for analyzing a colorimetric assay. 61/594,683 (filed 2/3/2012) 11. Point-of-Care for Measurement of Electronegative Heavy Metals. 61/383,791 (filed 9/17/2010) 12. Approach for spatial multicolor detection for point-of-care systems. 61/383,554 (filed 9/16/2010) 13. Micro sensor arrays for in situ measurements. 11/257,418 (filed 10/24/2005) 14. Paraffin Culture-Based Microfluidic Biochip for Detection of Mycobacteria in Clinical Samples.
60/673,229 (filed 4/20/2005) 15. Culture-Based Microfluidic Biochip. 60/658,693 (filed 3/4/2005) 16. Potentiometric Microelectrode Sensors for In Situ Environmental Monitoring. 60/621,504 (filed
10/22/2004)
Page 16 of 20
17. Microsensor Catheter and Method for Making the Same. 60/538,549 (filed 1/23/2004) INVITED PRESENTATIONS 1. “Electrochemical Metal Determination for Point-of-Care Assessment of Environmental Exposure,”
PITTCON, Atlanta, GA, March 6-10, 2016. 2. “Point-of-Care Colorimetric Detection with a Cell Phone,” PITTCON, Atlanta, GA, March 6-10, 2016. 3. “Inertial microfluidics for isolating, enriching, and counting of cells,” 8th Workshop of Chemical and
Biological Micro Laboratory Technology, Ilmenau, Germany, February 23-25, 2016. 4. “Initial Validation and Demonstration of Point-of-Care Sensor for Multi-Metal Exposure Assessment,”
International Society of Exposure Science Annual Meeting, Henderson, NV, October 19-22, 2015. 5. “Inertial Microfluidics for Cell Sorting and Counting,” Symposium on Micro, Nano & Bio Fluidics,
NanoTech 2015, Washington, DC, June 14-17, 2015. 6. “Multimodal Size-Based Inertial Microfluidic Sorters,” ASME Global Congress on NanoEngineering for
Medicine and Biology (NEMB2015), Minneapolis, MN, April 19-22, 2015. 7. “Point-of-Care Metal Exposure Assessment Using Electrochemical Microsensors”, Pittsburgh
Conference (Pittcon), New Orleans, LA, March 8-12, 2015. 8. “Inertial Microfluidic Devices for Cell Separations,” Microfluidics and Lab on a Chip India, Mumbai,
January 22-23, 2015. 9. “Multimodal Size-Based Microfluidic Sorters,” IEEE EMBS Micro and Nanotechnology in Medicine
Conference, Turtle Bay, Oahu, HI, December 8-12, 2014. 10. “Lab-on-a-Chip for Metal Exposure Assessment,” Symposium on Emerging Technologies for
Biomonitoring, International Society of Exposure Science (ISES), Cincinnati, OH, Oct 12-16, 2014. 11. “Electrochemical Sensors for Point-of-Care Measurements of Metals,” 224th Electro Chemical
Society (ECS) Meeting, San Francisco, CA, 2013. 12. “Separation of Cancer Cells using Inertial Microfluidics,” Indiana University, September 27, 2013. 13. “Sensors for Point-of-Care Assessment of Metal Exposure,” Workshop on New Methods of Exposure
Metrics, Department of Environmental Health, University of Cincinnati, April 5, 2013. 14. “Inertial Microfluidic Devices for Cell Separations,” Lab-on-a-Chip World Congress, San Diego,
September 26, 2012. 15. “Inertial Microfluidic Devices for Blood Cell Separation,” Simon Frazier University, Department of
Electrical Engineering, Vancouver, Canada, July 21, 2012. 16. “CMOS Fluorescence Imaging for Point-of-Care Sensing and Microfluidics,” CMOS Emerging
Technologies, Vancouver, Canada, July 19, 2012. 17. “Sensors for Point-of-Care Assessment of Metal Exposure,” Sensor Technology Applied to Health
and Safety, Department of Environmental Health, University of Cincinnati, May 25, 2012. 18. “Microfluidics for Point-of-Care Applications,” Center for Environmental Genetics, Department of
Environmental Health, University of Cincinnati, February 9, 2012. 19. “Inertial Microfluidic Devices for Cell Separation,” University of California at Berkeley, January 25,
2012. 20. “Inertial Microfluidics in Spiral Microchannels,” Naval Research Labs, Washington, DC, August 9,
2011. 21. “Spiral Inertial Microfluidic Devices for Cell Separation,” University of Maryland, Department of
Mechanical Engineering, March 14, 2011. 22. “Microfluidic Systems for Environmental and Biological Applications,” University of Arizona,
Department of Electrical and Computer Engineering, April 18, 2008. 23. “Microfluidic Lab-on-a-Chip for Sizing and Separating Nanoparticles,” Ohio Nanotechnology Summit,
April 11, 2008. 24. “Needle-type sensors for in situ measurements in biological systems,” University of Illinois at Chicago,
Department of Bioengineering, Chicago, IL, December 7, 2007. 25. “Needle-type sensor array for simultaneous measurement of dissolved oxygen and redox potential in
situ,” Ecole Supérieure d’Ingénieurs en Electronique et Electrotechnique (ESIEE), Paris, France, October 11, 2007.
26. “Microelectromechanical Systems (MEMS) for Bio Applications,” keynote speech at TechnoInnova 2007, Congreso de Ingenieria Mecatronica, Tecnologico de Monterrey, Querétaro, Mexico, September 20-21, 2007.
Page 17 of 20
27. “Needle-type sensor array for simultaneous measurement of dissolved oxygen and redox potential in situ,” Recent Advances in Sensors for Environmental Monitoring, Environmental Chemistry Division, 234th American Chemical Society Meeting, Boston, MA, August 20, 2007.
28. “Microelectrodes for in situ monitoring of dissolved oxygen,” Department of Electrical and Computer Engineering, University of Alabama, Birmingham, December 1, 2006.
29. “Writing Winning Proposals,” Preparing Future Faculty Seminar, Cincinnati, OH, May 22, 2006. 30. “Developments in Micro and Nano Technologies for Surgical Applications,” Nanoscale Science and
Technology in Medicine Symposium, Cincinnati, OH, January 20, 2006. 31. “Microscale Sensors for Environmental Monitoring,” Invited Talk, Midwestern Symposium on Circuits
and Systems, Cincinnati, OH, August 9, 2005. 32. “Commercialization efforts at Biomedical Microsystems Laboratory,” Cincinnati Chamber of
Commerce, Cincinnati, OH, July 18, 2005. 33. “Microelectrode Array Sensors for In Situ Monitoring in the Environment,” NASA Environmental
Sentinels Workshop, Houston, TX, June 1, 2005. 34. “Culture based biochips for detection of mycobacteria,” Biomedical Research Symposium,
Department of Electrical and Computer Engineering, University of Cincinnati, Cincinnati, OH, May 6, 2005.
35. “Developing Culture-Based Biochips for Detecting Mycobacteria in the Environment,” Keynote Address, IEEE Cincinnati Section Meeting, February 24, 2005.
36. “Developing Culture-Based Biochips for Sensing Mycobacteria in the Environment,” General Electric Research Park, Albany, NY, January 21, 2005.
37. “IEEE Engineering in Medicine and Biology (EMB) Club at UC,” General Meeting of the IEEE Engineering in Medicine and Biology (EMB) Club, University of Cincinnati, Cincinnati, OH, October 5, 2004.
38. “MEMS Pressure Sensors for Biomedical Applications in Pediatric Surgery,” Department of Pediatrics, Cincinnati Children’s Hospital Medical Research Center, Cincinnati, OH, August 8, 18, 2004.
39. “Biomedical Microelecromechanical Systems,” Keynote Speech, Tau Kappa Nu Banquet, Cincinnati, OH, March 10, 2004.
40. “Developing Culture-Based Biochips for Environmental Monitoring,” Electronic Materials and Devices Seminar, Department of Electrical and Computer Engineering, University of Cincinnati, Cincinnati, OH, February 6, 2004.
41. “Culture-based detection of mycobacteria,” Biodefense Research Symposium, University of Cincinnati, Cincinnati, OH, June 25, 2004.
42. “Micro instrumentation for fetal surgery,” Children’s Medical Research Center, Cincinnati Children’s Hospital, Cincinnati, OH, May 19, 2004.
43. “Physiological microsensors,” Congressman Steve Chabot Visit, UC College of Engineering, Cincinnati, OH, April 15, 2004.
44. “BioMEMS for Biosurgery,” Clinical Applications of Biomedical Engineering in the Surgical Environment Symposium, Cincinnati, OH, January 23, 2004.
45. “Developing Culture-Based Biochips for Detecting Mycobacteria in Environmental Samples,” Department of Chemical and Materials Engineering, University of Cincinnati, Cincinnati, OH, December 2, 2003.
46. “Developing Culture-Based Biochips for Detecting Mycobacteria in Environmental Samples,” Louisiana State University, Baton Rouge, LA, September 12, 2003.
47. “Interdisciplinary BioMEMS Research and Education at UC,” Wilkes University, Berry, PA, March, 2003.
48. “Biomedical Microsystems,” Kraft Inc., Cincinnati, OH, December 6, 2002. 49. “Biomedical Microsystems,” Department of Biomedical Engineering, University of Cincinnati,
Cincinnati, OH, June 13, 2002. 50. “Microelectromechanical Systems,” Keynote Speech, Ohio Tau Beta Pi Chapter Banquet, Cincinnati,
OH, May 23, 2002. 51. “Microelectromechanical Systems,” Computer Engineering Seminar Series, Department of Electrical
and Computer Engineering, University of Cincinnati, Cincinnati, OH, April 24, 2002. 52. “Biomedical Microsystems,” Electronic Materials and Devices Seminar, Department of Electrical and
Computer Engineering, University of Cincinnati, Cincinnati, OH, October 3, 2001.
Page 18 of 20
53. “Biomedical Applications of MEMS,” Department of Electrical and Computer Engineering, University of Cincinnati, Cincinnati, OH, April 13, 2001.
54. “Biomedical Microsystems,” International Paper Inc., Cincinnati, OH, April 3, 2001. 55. “Use of Microsystems and Microsensors to evaluate physiological parameters in the mouse,”
Experimental Biology 2001 Workshop, Meeting of the American Physiological Society, Orlando, Florida, March 31, 2001.
56. “Biomedical Microsystems,” Keynote Speech, UC Tau Kappa Nu Banquet, Cincinnati, OH, February 26, 2001.
57. “Metallic Micro Instrumentation for Biomedical Applications,” Department of Material Sciences, University of Cincinnati, Cincinnati, OH, February 8, 2001.
RESEARCH MENTOR
Doctoral
Name Defense Dissertation Post-graduation
Dr. Jin-Hwan Lee (2008 outstanding PhD dissertation award, ECE)
Dec 13, 2007
MEMS needle-type multi-analyte microelectrode array sensors for in situ biological applications
1) Post-doc, Georgia Tech 2) Research Prof. UT-Dallas 3) Intel Inc.
Dr. Ali Asgar S. Bhagat (2009 outstanding PhD dissertation award, ECE)
Feb 10, 2009
Passive microfluidic systems for manipulation of micro and nano particles
1) Post-doc, MIT 2) CTO, Cleabridge Biomedics (startup)
Dr. Woohyuck Choi Dec 14, 2010
Needle-type sensor for in situ 2D/3D
multi-analyte mapping 1) Post-doc, Univ. Illinois – Urbana Champaign 2) Global Foundries, Inc.
Dr. Preetha Jothimuthu (2008 outstanding MS thesis award, SECS)
May 20, 2011
Lab-on-a-chip sensor for heavy metal detection in public health applications
1) Post-doc, Univ. Illinois – Urbana Champaign 2) Post-doc, Stanford Medical School
Dr. Li Shen (2013 outstanding PhD dissertation award, SECS)
May 4, 2012
Portable Multiplexed Optical Detection for Point-of-Care
Intel Co.
Dr. Jian Zhou May 16, 2012
Novel approaches to cell isolation in simple inertial microfluidic devices
Assistant Professor, Biomedical Engineering, Zhejiang University
Dr. Ananda Banerjee Nov 4, 2013
Reconfigurable lab-on-chip using virtual electrowetting channels
Intel Co.
Dr. Michael Ratterman Mar 26, 2015
Multi-analyte lab-on-a-chip detection using optical and electrochemical methods
Founder, Venzi Engineering
Dr. Xing Pei July 14, 2015
Copper-based POC sensor for heavy metal determination in public health applications
University of Cincinnati
Dr. Richard Craig Murdock July 13, 2015
Development of microfluidic paper-based analytical devices for POC human physiological and performance monitoring
Program Manager, 711 Human Performance Wing, Air Force Research Labs
Dr. Yugung Liu Jan 22, 2016
Integrating continuous and digital microfluidics in EWOD for heterogeneous immunoassay
Post-doc, Mayo Clinic
Dr. Nivedita Nivedita Apr 14, 2016
Fluid dynamics and inertial focusing in spiral Microchannels for cell sorting
Post-doc, Univ. North Carolina School of Medicine
Dr. Xiao Wang (2016 outstanding PhD dissertation award, EECE)
Feb 3, 2016
Inertial microfluidic vortex cell sorter Post-doc, Harvard Medical School /Mass General
Dr. Wenjing Kang July 14, 2016
Point-of-care sensors for determination of Manganese in clinical applications
Post-doc, Northeastern University
Page 19 of 20
Masters Divakar Ramgopal (July 26, 2002), Grant Hollis (Mar 6, 2003), Jagannathan Narasimhan (May 8, 2003), Pradeep Srinivasan (Aug 11, 2003), Hima Bindu Eluru (Aug 18, 2004 ), Gaoshan Jing (Aug 4, 2004), Bongsu Kim (Sep 9, 2004), Frank Sauser (Feb 24, 2005 ), David Pepples (May 13, 2005 ), Xingtao Wei (Aug 5, 2005 ), Ali Asgar S. Bhagat (July 11, 2006), Erik T. K. Peterson (July 25, 2006), Jayaprakash Venkatraman (Feb 26, 2007), Andrea Pais (May 31, 2007), Tae-Sun Lim (Aug 10, 2007), Preetha Jothimuthu (May 29, 2008), S. Kuntaegowdanahalli (May 4, 2009), Yun Shuai (May 21, 2009), Praveen Radhakrishnan (July 21, 2009), Andrew Carroll (Aug 11, 2009), Arpita Chatterge (May 20, 2011), Taher Kagawala (Feb 18, 2011), Prithiviraj Mukherjee (Mar 2015), Hua Gao (Oct 2016). Postdoctoral and Research Associates Jain Zhou, Ph.D., Zhejiang University, China, 2016-present Daoli Zhao, Ph.D., University of Cincinnati, 2015-2016 Christopher Delamater, M.S., Beckman Coulter, 2014-2015. Joshua Hagen, Ph.D., 711 Human Performance Wing, Air Force Research Labs (AFRL), 2011-2015. Frank Sauser, M.S., Cincinnati Children’s Hospital, Cincinnati, OH, 2005 - 2006. Mathew Estes, Ph.D. Candidate in Biomedical Engineering, University of Cincinnati, 2004 Robert Argile, M.S. Candidate in Electrical Engineering, Univ. of Newcastle, Newcastle, England, 2003. Adam Bange, Ph.D. Candidate in Chemistry, University of Cincinnati, 2003. Bachelor – Research Co-op Laura Stegner (Jan-Apr 2016), Benjamin Lorinzetti (Aug-Apr 2015), Andrew Dressman (Aug-Dec 2014), Jacob Buenger (May-Aug 2013), Tyler Stites (June-Sep 2011), Josi Herren (Jan-Mar 2010, Sep-Dec 2009) Bachelor – Senior Design Projects Rushi Panchal (10/2015-4/2016), Nicolas Foltz (8/2012 – 4/2013), Matthew Dunn (9/2009 – 6/2010), Katherine Wurm (9/2006 – 6/2007), Andrew Sampson and Hung Vu (9/2005 – 6/2006), Cheryl Hardin (9/2005 – 6/2006), Emily Voellmecke and Grant DeVilbiss (9/2004 – 6/2005), Gabriel Dagani and Patrick Williams (9/2003 – 6/2004), Ryan Prater and Josh Jelly (9/2003 – 6/2004), Maryam Hamad and Lisa Holcomb (9/2002 – 6/2003), Joshua Gilchrist (9/2001 – 6/2002), Jackie Rettig and Kenneth Miller (9/2001 – 6/2002), Edward Johnson and Mansoor Nassir (9/2000 – 6/2001) Bachelor -- Summer REU Students Tyler Stites (Jun-Sep 2011), Josi Herren (Jun-Aug 2009), Ken Soo (Jun-Aug 2009), Katherine Wurm (Jun-Aug 2007), Grabowski Neal (May-Aug 2006), Andrew Sampson (Jun-Aug 2006) High School – Students Working at UC Xiandi Yang (Jul-Aug 2015), Nadja Dindic (Jun-Dec 2014), Grabowski Neal (Jun-Jul 2005), Janna Vincigverra (Jul-Aug 2005) PROFESSIONAL ACTIVITIES Conference Organization
Workshop Organizer, The 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences (microTAS2016), Dublin, Ireland, 9-13 October 2016.
Technical Program Committee, The 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences (microTAS2016), Dublin, Ireland, 9-13 October 2016.
Conference Committee, The 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences (microTAS 2014), San Antonio, TX, October 26-30, 2014.
Conference Organizing Committee, International Conference on SPIE Microfluidics, BioMEMS, and Medical Microsystems, San Francisco, 2008-present
Conference Chair, International Conference on SPIE Microfluidics, BioMEMS, and Medical Microsystems, San Jose, CA, 2004-2007.
Conference Organizing Committee, Biomedical Engineering Society Conference, BioMEMS for Cellular/Tissue Engineering Track, Nashville, TN, October 1-4, 2003.
Page 20 of 20
Conference Co-Chair, 1th International Conference on SPIE Microfluidics, BioMEMS, and Medical Microsystems, San Jose, CA, January 26-29, 2003.
Conference Organizing Committee, Joint 2002 IEEE EMBS/BMES Conference, BioMEMS, Sensors, and Instrumentation Track, Austin, TX, October 23-26, 2002.
Editor
Editorial Board Member, Micromachines, 2015-2017
Editorial Board Member, Microelectronic Engineering, 2016-2019
Associate Editor, SPIE J. Microlithography, Microfabrication, and Microsystems (JM3), 2006-2010.
Guest Editor, SPIE J. Microlithography, Microfabrication, and Microsystems (JM3), “BioMEMS and Microfluidics,” April 2006.
Editor, Proceedings of SPIE, “Microfluidics, BioMEMS, and Medical Microsystems,” 2003- 2006.
Guest Editor, Thematic Issue on Microfluidics, Biomedical Microdevices, vol. 3, no. 3, 2001. Reviewer National Institutes of Health - NIH Instrumentation and Systems Development (ISD) Study Sections
(2013-present), Interdisciplinary Molecular Sciences and Training (IMST) Integrated Review Group (IRG) (2012-2015), NIEHS Superfund Review study sections (2012-2013), Bioengineering Sciences and Technologies (BST) Group Panels (2007-2008, 2011), Ad Hoc Technical Panels (Nov 2004, Mar 2007, July 2007, Nov 2008). National Science Foundation - CBET Material Research Instrumentation (MRI) Panels (2010-present), EECS Emerging Frontiers of Research and Innovation (EFRI) Panel (2012), CBET Emerging Environmental Technology Review Panels (2007-2010), Biosensors and Biochips SBIR Phase I/Phase II Technical Panels (2002-2007), Division of Bioengineering and Environmental Science (BES) Review Panels (2004-2006), DUE Course, Curriculum, and Laboratory Improvement (CCLI) Review Panel (2005), Engineering Research Centers (ERC) Review Panel (2005). Professional Affiliations Fellow, Royal Society of Chemistry; Senior Member, IEEE, Engineering in Medicine and Biology Society (EMBS); American Society for Engineering Education (ASEE), International Society for Optical Engineering (SPIE), American Association for the Advancement of Science (AAAS)
