hankeun2@illinois.edu
Department of Electrical and Computer Engineering
Education
Bachelor of Science in Electrical and Computer Engineering, Binghamton University, 2014
Research Interests
My research interest lies in developing creative and novel methods to demonstrate a cost-effective sensing method in detecting infectious diseases and viruses by applying the state-of-art technologies in biosensing fields. My current project involves developing a smartphone-based biosensing system to track pathogens in whole blood sample using on-chip nucleic acid amplification.
Research Experience
Undergraduate Research Assistant, Binghamton University
Bioelectronics & Microsystems Lab, January 2013 – May 2015
Advisor: Prof. Choi, Seokheun
Publications
- Yang, X. Wei, A. Fraiwan, C.G. Coogan, H. Lee, and S. Choi, “Fast and Sensitive Water Quality Assessment: A uL-scale Microbial Fuel Cell-based biosensor Integrated with an air-bubble trap and electrochemical sensing functionality,” Sensors & Actuators:B. Chemical, 226, pp. 191-195,2016
- Wei, H. Lee, and S. Choi, “Biopower generation in a microfluidic bio-solar panel,” Sensors & Actuators:B. Chemical, 228, pp.151-155,2016
- Yang, X. Wei, A. Fraiwan, C.G. Coogan, H. Lee, and S. Choi, “Fast and Sensitive Water Quality Assessment: A uL-scale Microbial Fuel Cell-based biosensor Integrated with an air-bubble trap and electrochemical sensing functionality,” Sensors & Actuators:B. Chemical, 226, pp. 191-195,2016
- Lee, and S. Choi, “An origami paper-based bacteria-powered battery,” Nano Energy, 15, pp. 549-557, 2015
- Lee, and S. Choi, “A micro-sized biosolar cell for self-sustaining power generation,” Lab Chip, 15, pp. 391-398, 2015 (Featured on the Cover of Lab Chip, Lab on a Chip 2015 HOT article)
- Fraiwan, H. Lee and S. Choi, “A multi-Anode paper-based microbial fuel cell: A potential power source for disposable biosensors,” IEEE Sensors Journal, 14, pp.3385-3390, 2014
- Yoon, H. Lee, A. Fraiwan, C. Dai and S. Choi, “A microsized microbial solar cell: A demonstration of photosynthetic bacterial electrogenic capabilities,” IEEE Nanotechnology Magazine, Vol. 8, pp.24-29, 2014