This division spans a wide range of research involving emerging solid-state devices, integrated micro/nanosystems, advanced materials, nanotechnology, electromagnetic fields and waves, and their applications.
The division includes the following active topics and themes:
- Electromagnetic (EM) fields – from fundamentals to applications
- Electrical power generation, distribution/transmission, and utilization
- EM waves – wave guiding, propagation, and interactions
- Optical fibers and applications
- Photonics – materials, devices, and photonic integrated circuits
- Optoelectronics (lasers, solar cells, detectors)
- Transistors (SiGe, MIS, III-V) and beyond-CMOS devices
- Micro/nanoelectromechanical systems (MEMS & NEMS) – mechanical, electrical, magnetic, optical, thermal, and biological transducers
- RF/microwave devices and systems
- Sensors and actuators, sensors for Internet of Things (IoT)
- Nanotechnology
- Biotechnology – BioMEMS, biomedical materials, devices, and microsystems, wearable and implantable devices
- Advanced materials – wide-bandgap semiconductors, ferroelectric, piezoelectric materials, metamaterials
- Quantum devices and quantum technologies
FACULTY
Area Chair: Navid Asadi
Biography
Primary Research Area
Electronics
Research Interests
Low-power analog/RF/Mixed-mode ASIC design, miniaturization, wireless powering, electrode design/microfabrication, coil design/fabrication for magnetic stimulation, neural stimulation and recording in animal models, and implant packaging
Honors and Awards
NIH Director’s New Innovator Award, 2024
NIH T32 Fellow, 2019
Ferdinand H. Fellow, 2018
Education
PhD, Electronic and Computer Engineering, Johns Hopkins University
MPhil, Electronic and computer engineering, The Hong Kong University of Science and Technology
BEng, Electronic and Computer Engineering, The Hong Kong University of Science and Technology