(* denotes undergraduate co-author)
- * S. Pontrelli, * I. Nova, and U. Kim. “Novel Cellulose Paper Device towards Affordable, Equipment-free, and Specific Detection of Bacterial Pathogens”, in review.
- * J. M. Protilla, and U. Kim. “Toward a novel electrolysis actuated micropump for implantable drug delivery applications”, in review.
- U. Kim, * S. Ghanbari, * A. Ravikumar, J. Seubert, and S. Figueira. “Rapid, Affordable, and Point-of-Care Water Monitoring via a Microfluidic DNA Sensor and a Mobile Interface for Global Health”, IEEE Journal of Translational Engineering in Health and Medicine (1) 2168-2372 (2013).
- U. Kim, * W. Leineweber, * M. Williams, J. Gonzales, and S. Figueira. “Affordable, Sensitive, Point-of-Care Bacterial Detection through Paper-based Device for Resource Limited Settings”, Proceedings of the IEEE Health Innovation and Point-Of-Care Technologies Conference 2014.
- * A. Michaelian, * C. Truong, and U. Kim. “Compact, Low-power Micropump via Electrolysis and Catalytic Recombination towards Integrated Microfluidic Systems”, Proceedings of the BMES Annual Meeting (BMES 2014).
- U. Kim, * J. VanderGiessen, and X. Savarimuthu. “Implementation of Electrochemical Sensors in Arsenic-contaminated Areas of West Bengal in India toward Rapid and Point-of-Use Detection of Arsenic in Drinking Water”, Proceedings of the IEEE Global Humanitarian Technology Conference (GHTC 2014),.
- * A. Michaelian, * C. Truong, and U. Kim. “Monolithic, Low-power Micropump towards Integrated Microfluidic Systems”, Proceedings of the 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2014).
- U. Kim, * B. Demaree, * J. VanderGiessen, * M. Reynolds, * K. Perricone. “Development of Low-Cost Plastic Microfluidic Sensors toward Rapid and Point-of-Use Detection of Arsenic in Drinking Water for Global Health”, Proceedings of the IEEE Biomedical Circuits and Systems (BioCAS 2013).
- U. Kim, * B. Demaree, * J. VanderGiessen, * M. Reynolds, * K. Perricone, J. Seubert, * Z. Elahi, S. Krishnan, and S. Figueira. “Electrochemical Detection of Arsenic via a Microfluidic Sensor and Mobile Interface towards Affordable, Rapid, and Point-of-Use Water Monitoring”, Proceedings of the IEEE Healthcom 2013.
- * J. M. Portilla and U. Kim. “Low-power, Self-contained, Reciprocating Micropump through Electrolysis and Catalyst-driven Recombination toward Drug Delivery Applications”, Proceedings of the MicroElectroMechanical Systems (MEMS 2013).
- U. Kim, * A. Ravikumar, J. Seubert, and S. Figueira. “Detection of Bacterial Pathogens through Microfluidic DNA Sensors and Mobile Interface toward Rapid, Affordable, and Point-of-Care Water Monitoring”, Proceedings of the IEEE Point-of-Care Healthcare Technologies, 2013.
- * J. M. Portilla, C. Ledesma, A. Curiel, S. Krishnan and U. Kim, “Implantable Electrolysis Micropump with Bubble”, Proceedings of the Engineering in Medicine and Biology Society (IEEE EMBC 2012).
- * S. Ghanbari, * N. Giustini, * C. Mar, * P. Doshi and U. Kim, “Detection of Waterborne Pathogens Using Electrochemical DNA Sensors for Resource Limited Settings”, Proceedings of the Biomedical Engineering Society Annual Meeting (BMES 2011).
- C. Rogers. M.G. Bupp, U. Kim, G. DeKrey and S. Stranford, “Successful Integration of Practical Flow Cytometric Experience into Undergraduate Education”, Proceedings of the American Association of Immunologists Annual Meeting (Immunology 2011).
- U. Kim and H.T. Soh, “Simultaneous, Marker Specific Sorting of Multiple Bacterial Targets Using integrated Dielectrophoresis/Magnetophoresis Activated Cell Sorter (iDMACS)”, Lab on a Chip (9) 2313-2318 (2009).
- U. Kim, J. Qian, S. Kenrick, P.S. Daugherty, and H.T. Soh, “Multitarget Dielectrophoresis Activated Cell Sorter”, Analytical Chemistry, 80, 8656-8661 (2008).
- J.D. Adams, U. Kim, and H.T. Soh, “Multitarget Magnetic Activated Cell Sorter (MT-MACS)”, Proceedings of the National Academy of Sciences, USA, 105, 18165-18170 (2008).
- U. Kim, C-W Shu, K.Y. Dane, P.S. Daugherty, J.Y. Wang, and H.T. Soh, “Selection of Mammalian Cells According to Cell-Cycle Phase using Dielectrophoresis”, Proceedings of the National Academy of Sciences, USA, 104, 20708-20712 (2007).