Hartmut Haeffner Dept of Physics quantum information and computation, precision measurements, ion traps, quantum state engineering, decoherence, quantum simulations, quantum energy transport, quantum chaos, cryogenic electronics
Daniel McKinsey Dept of Physics dark matter, noble gases, cryogenics, high voltages, particle physics, astrophysics, low temperature physics, detector physics, neutrinos
Michael Crommie Dept of Physics physics, electronic properties of atomic-scale structures at surfaces, atomic-scale structures, morphology and dynamics of mesoscopic systems, atomic manipulation, visualizing low dimensional electronic behavior
Ana Claudia Arias Division of Electrical Engineering (EECS) physical electronics, energy, flexible and printed electronics
Andrew Minor Dept of Materials Science and Engineering metallurgy, nanomechanics, electron microscopy, in situ TEM, electron microscopy of soft materials
Joel Moore Dept of Physics physics, condensed matter theory, electron-electron interactions, zero-temperature phase transitions, interaction effects in nanoscale devices, quantum phase transitions
Ali Javey Division of Electrical Engineering (EECS) nanotechnology, low power electronics, flexible electronics and sensors, nanofabrication, energy harvesting and conversion, programmable matter
Jessica Boles Division of Electrical Engineering (EECS) power electronic circuits, components, control
Ramamoorthy Ramesh Dept of Materials Science and Engineering Dept of Physics Atomic-scale synthesis of complex oxide heterostructures, 2D materials, spin-charge coupling, polar and magnetic topologies, electron microscopy, piezoforce microscopy, NV magnetometry, materials processing for devices, energy efficient electronics(12634)
Robert Pilawa-Podgurski Division of Electrical Engineering (EECS) power electronics, energy systems, renewable energy, photovoltaics, electric vehicles
Oscar Dubon Dept of Materials Science and Engineering magnetic, optical materials, processing, properties in electronic
Martin P. Head-Gordon Dept of Chemistry theoretical chemistry, electronic structure calculations, development of novel theories and algorithms, quantum mechanics
Terrence Hendershott Haas School of Business management of information systems, role of information technology in financial markets, after-hours stock trading, electronic communications networks (ECNs), electronic markets
Eric Paulos Division of Computer Science (EECS) human-computer interaction, new media arts, digital fabrication, epidermal and wearable electronics
Sayeef Salahuddin Division of Electrical Engineering (EECS) physical electronics, design and modeling and analysis, energy, scientific computing
Zakaria Al Balushi Dept of Materials Science and Engineering electronics, magnetic and optical materials, quantum materials synthesis, optoelectronics
Holger Mueller Dept of Physics atomic, molecular, optical physics, advanced electron microscopy, cryo-EM
Mary Scott Dept of Materials Science and Engineering structural materials, electronic materials, magnetic materials, optical materials, chemical and electrochemical material
Yuan Cao Division of Electrical Engineering (EECS) physical electronics, micro/nano electro mechanical systems, physics
Graham R. Fleming Dept of Chemistry Dept of Industrial Engineering & Operations Research chemistry, proteins, chemical and biological dynamics in the condensed phase, ultrafast spectroscopy, liquids, solutions, glasses, photosynthetic proteins, role of solvents in chemical reactions, electronic energy transfer, electron transfer, regulation of photosynthetic light harvesting
David Wagner Division of Electrical Engineering (EECS) computer security, secure electronic voting, web security, mobile security, cellphone security
Mengjie Yu Division of Electrical Engineering (EECS) physical electronics, artificial intelligence, integrated circuits, micro/nano electro mechanical systems
William A. Lester, Jr. Dept of Chemistry theoretical and physical chemistry, advances in basic theory, computational methods, study of molecular electronic structure, quantum Monte Carlo method, Born-Oppenheimer approximation
Alex Saum-Pascual Dept of Spanish and Portuguese digital literature, Transatlantic Literature, Spanish, Spain, electronic literature, contemporary literature, digital humanities, new media, Latin America