Assistant Professor, Department of Electrical Engineering & Computer Sciences
Subject areas:
Research
“Continuous” monitoring of specific biomarkers in real-time offers longitudinal information that can enable not only rapid medical decision-making but also early disease detection. As opposed to the current end-point diagnostics approaches, such a continuous-monitoring capability introduces a new dimension in achieving precision medicine and precision health. Our research focuses on the innovation in biomedical devices and systems to achieve this goal. Specifically, we harvest the power of CMOS integrated circuits, applied physics, and advanced biotechnology to address biosensing requirements on sensitivity, specificity, throughput, multiplexing, device miniaturization, and system scaling.