Research Interests
Analog, RF, and optoelectronic circuits. Sensor interface circuits. Deployable sensor systems
Analog, RF, and optoelectronic circuits. Sensor interface circuits. Deployable sensor systems
Michael J. Fitzpatrick Distinguished Professor of Engineering
Quantum error correction, quantum control, quantum computer architecture, ion trap quantum computing, and the spectroscopy of sympathetically cooled molecular ions
Lord-Chandran Distinguished Professor of Engineering
Microfluidic systems for lab-on-a-chip applications based on electrowetting technology
Nanomaterials in electronic devices, nanofabrication, printed electronics and internet of things (IoT), biosensing
Primarily computational and compressive sensing and measurement in all modalities (with special emphasis in Electromagnetic/Optical from RF to x-ray and all forms of Mass spectrometry),…
Hogg Family Director of Engineering Management & Entrepreneurship, Professor of ECE
Electronic materials and the associated devices/instruments improved by these materials, especially electrode applications in miniature mass spectrometry, energy conversion and storage and liquid waste disinfection…
J. A. Jones Distinguished Professor of Electrical and Computer Engineering
Schiciano Family Distinguished Professor of Electrical and Computer Engineering
Quantum Computing with Trapped Ions, Quantum Information Science, Novel Photonic Devices, Application of Quantum Computers
Ultrathin gate dielectrics for CMOS ULSI – the technology, physics, modeling, simulation, and characterization of ultrathin-oxide MOSFETs
James N. and Elizabeth H. Barton Associate Professor of Electrical and Computer Engineering
Quantum nanophotonics, plasmonics, light-matter interactions in artificially structured nanoscale materials, hybrid molecular-scale materials and spin phenomena in the solid state
Theoretical and experimental investigation of electromagnetic metamaterials and metasurfaces, and their application to imaging and sensing at microwave, terahertz, and infrared frequencies
Energy-efficient electronicsTwo-dimensional materialsNeuromorphic ComputingOptoelectronicsWide bandgap materialsHigh power electronicsRadiation effects and reliability
Theory, simulation and demonstration of novel electromagnetic metamaterials across the spectrum, from microwave through optical. Applications of metamaterials for antennas and imaging devices, with a…
Associate Dean for Community-Based Innovation, Professor of ECE
Thin-film deposition, MAPLE, hybrid perovskites, hybrid nanocomposites, organic thin films