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alivis@berkeley.edu
Personal page
(Chemistry, Material Science and Engineering - UCB)
Preparation and properties of semiconductor nanocrystals. Synthesis of crystallites consisting of a few hundred to tens of thousands of atoms. Spectroscopy of the clusters, including: electro-optic effects, photoemission, resonance Raman scattering. Melting in clusters, low temperature thin-film growth.
attwood@eecs.berkeley.edu
Personal page
(Applied Science and Technology/EECS - UCB; Center for X-ray Optics - LBNL)
Partially coherent radiation at short wave-lengths, synchrotrons, undulators, x-ray lasers, processes in hot dense plasmas; x-ray optics, microscopes, and holography; application of element specific x-ray microscopy to studies in the life and physical sciences.
birdsall@eecs.berkeley.edu
Personal page
(Electrical Engineering and Computer Science, Plasma Interdisciplinary Committee - UCB)
Plasmas; plasma theory and many-particle simulations; applications ranging from fusion plasmas to plasma assisted materials processing to plasma display panels to electric beam driven microwave tubes; current emphasis is on plasma-sheath surface dynamics.
jbokor@eecs.berkeley.edu
Personal page
(Electrical Engineering and Computer Science - UCB; Center for X-ray Optics - LBNL)
Nanostructure device physics and fabrication, x-ray optics and lithography.
carlos@alice.berkeley.edu
Personal page
(Physics, Molecular and Cell Biology, Chemistry - UCB; Howard Hughes Medical Institute)
Thermodynamics of small systems and its applications to both biological and non-biological systems.
vcarey@me.berkeley.edu
Personal page
(Mechanical Engineering - UCB; Applied Science Division - LBNL)
Thermophysics of multiphase systems; molecular simulation modeling of microscale transport processes, statistical mechanics of microscale systems.
cch@eecs.berkeley.edu
Personal page
(Electrical Engineering and Computer Science - UCB)
Semiconductor lasers and optoelectronic devices, III-V compound epitaxy and processing, applications in novel optical systems.
dcchrzan@berkeley.edu
Personal page
(Materials Science and Engineering - UCB)
Computational materials science, with emphases on dislocation dynamics and the growth of thin films.
chua@eecs.berkeley.edu
Personal page
(Electrical Engineering and Computer Science - UCB)
Nonlinear circuits, nonlinear systems, bifurcation theory, chaos, neural networks. CAD and non-linear electronics.
concus@lbl.gov
Personal page
(Mathematics - UCB; Computing Sciences - LBNL)
Mathematical, computational, and experimental study of fluid interfaces under microgravity conditions.
dejonghe@lbl.gov
Personal page
(Materials Science and Engineering - UCB; Center for Advanced Materials - LBNL)
The science of ceramic processing. Particulate composites of ceramics with polymer, metal or ceramic matrix. Microstructure characterization.
oddubon@berkeley.edu
Personal page
(Materials Science and Engineering - UCB)
Electronic materials processing, low-temperature molecular beam epitaxy (MBE), growth and properties of group IV alloys, synthesis of semiconductor nanostructures.
rwf@physics.berkeley.edu
Personal page
(Physics - UCB, Advanced Light Source, LBNL)
Quantum electronics and short wavelength coherent light sources, with applications to atomic physics, solid state physics and plasma physics.
grfleming@lbl.gov
Personal page
(Chemistry Department, UCB; LBNL; QB3 (UCB, UCSF, UCSC))
Conversion of solar energy into chemical energy using hybrid biological nano-structured materials.
myf@me.berkeley.edu
Personal page
(Mechanical Engineering - UCB)
Chemical kinetics; combustion chemistry; pollutant formation; diamond synthesis; interstellar dust formation.
glaser@berkeley.edu
Personal page
CE
A large part of my research involves the development of nano-seismic sensors, and the interpretation of measured waveforms, and the use of wireless sensor networks for the quantification of the diagnosis of neuropathologies.
rgronsky@berkeley.edu
Personal page
(Materials Science and Engineering - UCB; National Center for Electron Microscopy - LBNL)
Identification of atomic structure of interfaces and defects in materials using techniques of electron microscopy. Relationship between atomic structure and properties of metallic alloys, ceramics, semiconductors, and superconductors, including the superconducting oxides with high Tc.
tkg@eecs.berkeley.edu
Personal page
(Electrical Engineering and Computer Science, Quantum Electronics Group - UCB)
Modern optics and quantum electronic techniques; non-linear phenomena; coherence in electronic materials.
eehaller@lbl.gov
Personal page
(Materials Science and Engineering - UCB; Materials Sciences Division - LBNL)
Semiconductor thin-film and bulk crystal growth; study of electronic and structural properties of defects, impurities and complexes in elemental and compound semiconductors with optical, electrical and ion beam techniques; and development of advanced low temperature photon and phonon detectors.
tlhead-gordon@lbl.gov
Personal page
(Bioengineering - UCB, LBNL)
Experimental, theoretical and computational approaches toward problems of protein folding and structure prediction and modeling aqueous hydration. Highly multidisciplinary and collaborative among the areas of structural biology, physical chemistry, physics, computer science and mathematical optimization.
jordan@cs.berkeley.edu
Personal page
(Electrical Engineering and Computer Science, Statistics - UCB)
Statistical machine learning, with specialization in probabilistic graphical models, nonparametric Bayesian methods, and kernel methods, with application interests in signal processing, genomics and proteomics.
katz@cchem.berkeley.edu
Personal page
(Chemical Engineering - UCB)
Design and synthesis of novel nano-scale materials using templating-based strategies to create solids with unique electronic and catalytic properties.
tking@eecs.berkeley.edu
Personal page
(Electrical Engineering and Computer Science - UCB)
Integrated circuit devices and thin-film technology for larger area electronics; microelectromechanical devices (MEMS).
lplee@berkeley.edu
Personal page
(Bioengineering, Berkeley Sensor and Actuator Center - UCB)
The BioPOETS (Biologically-inspired Photonics & Optofluidic Electronics Technology and Science) group is focusing on quantum nanoplasmonics for in vivo molecular and cellular imaging; microfluidic cellular BASICs (Biological Application Specific Integrated Circuits) for quantitative cell biology; soft-state biological devices for single cell biophysics; nanobiotechnology for molecular diagnostics; BioMEMS and BioPOEMS (Biomolecular Polymeric Opto-Electro Mechanical Systems) for the digitalization of quantitative systems biology, systematic neuroscience, and molecular medicine.
shaofan@berkeley.edu
Personal page
(Civil and Enviromental Engineering, UCB)
Computational statistical mechanics, nano-mechanics, mechanics of soft matter, micromechanics.
ajl@eecs.berkeley.edu
Personal page
(Electrical Engineering and Computer Science, Nonlinear Systems and Dynamics Group, Interdisciplinary Plasma Committee - UCB)
Nonlinear dynamics, and plasma discharges for materials processing.
lieber@eecs.berkeley.edu
Personal page
(Electrical Engineering and Computer Science - UCB)
Interdisciplinary Plasma Committee (UCB). Plasma-assisted materials processing and processing discharges, with applications to integrated circuit fabrication.
majumdar@me.berkeley.edu
Personal page
(Mechanical Engineering, Materials Science and Engineering - UCB)
Nanoscale Diagnostics (Scanning Probe Microscopy); Energy Conversion and Transport in Nanostructures; Optomechanical Microdevices; Nano-Biomolecular Engineering.
pmarcus@me.berkeley.edu
Personal page
(Mechanical Engineering, Nonlinear Dynamics Group - UCB)
Bifurcations and development of chaotic flows, numerical simulation of three- dimensional fluid flow, vortex dynamics, numerical algorithms for large Reynolds number flows, applications to astrophysics and geophysics.
mcmains@me.berkeley.edu
Personal page
(Mechanical Engineering - UCB)
Geometric and sold modeling, CAD/CAM/CAPP, layered manufacturing, computer graphics and visualization, virtual prototyping, virtual reality.
mofrad@berkeley.edu
Personal page
(Bioengineering - UCB)
Multi-scale/multi-physics approaches for understanding the mechanobiology of cardiovascular disease, and the use of MEMS technology for tissue engineering and regenerative medicine.
jworenstein@lbl.gov
Personal page
(Physics - UCB)
Linear and nonlinear optics to study condensed matter physics, in systems such as superconductors and semiconductors.
rramesh@berkeley.edu
Personal page
(Materials Science Engineering, Physics - UCB)
Complex oxide thin films, heterostructures and nanostructures; highly correlated oxide materials; scanned probes and transmission electron microscopy; nonvolatile memory and MEMS devices.
sayeef@eecs.berkeley.edu
Personal page
(Electrical Engineering and Computer Science - UCB)
Physics of nanoscale devices encompassing full spectrum of Physics, Materials Science and Electrical Engineering. Visit at: www.eecs.berkeley.edu/~sayeef.
savas@me.berkeley.edu
Personal page
(Mechanical Engineering - UCB)
Aircraft wake vortices, biofluid mechanics, boundary layers, instrumentation, rotating flows, transient aerodynamics, turbulent flows, vortex dynamics.
segalman@berkeley.edu
Personal page
(Chemical Engineering - UCB)
The fundamental relationship between the structure and electronic properties of conducting polymers for application in organic optoelectronics.
ysuzuki@berkeley.edu
Personal page
(Materials Science and Engineering)
Magnetics, in particular magnetic oxide thin films, devices and nanostructures and junction devices and photonic badgap materials.
rwhite@eecs.berkeley.edu
Personal page
(Electrical Engineering and Computer Science - UCB)
Ultrasonics, micromachined sensing and actuation devices for physical, chemical, and biological applications.
wuj@berkeley.edu
Personal page
(Materials Science and Engineering - UCB; Materials Science Division (LBNL))
Nanomaterials for applications in electronics, photovoltaics, and photonics.
wu@eecs.berkeley.edu
Personal page
(Electrical Engineering and Computer Science - UCB)
Micro and nano technologies, optical MEMS, nanophotonics, optoelectronics, biophotonics.
eliy@eecs.berkeley.edu
Personal page
(Electrical Engineering and Computer Science, UCB)
Silicon nano-photonics, nano-electronics, plasmonics, and the development of components for quantum information processing technology.
p_yang@berkeley.edu
Personal page
(Chemistry, Materials Science and Engineering - UCB)
Low-dimensional nanoscopic building blocks are used to assemble complex architectures with novel electronic and photonic properties.
pyyu@lbl.gov
Personal page
(Physics - UCB, LBNL)
Device application of semiconductors such as defects, electron-phonon interactions and effects on these as a result of quantum confinement.
xzhang@me.berkeley.edu
Personal page
(Mechanical Engineering, Director: NSF Nano-Scale Science and Engineering Center - UCB)
Applied physics, nano-photonics, nano-devices engineering, and novel nano-scale fabrication.
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