Small things are different. Our groups explores unique physicochemical properties of low-dimension materials by using, sometimes combining, electronic, optical, and chemical techniques.
Micro devices can deliver unprecedented performance over their macro counterparts in investigating new life phenomena. Our research interest focuses on the development of sensors, actuators, and controllers, that interface with biosystems at extremely high sensitivity, spatiotemporal resolution, and reliability.
Miniaturized devices based on innovative materials and device structures hold the promise of next-generation tools for improving human lives. Our group is focused on developing new instruments that are highly efficient in terms of power, size, cost, and time, for various applications, including diagnosis, prognosis, and environmental monitoring.
Artificial intelligence offers powerful tools that are transforming various fields. We are particularly interested in leveraging AI for next-generation sensing, control, and manufacturing, aiming to enhance precision, efficiency, and innovation across these areas.