Rebecca Abergel Dept of Nuclear Engineering Heavy element coordination and biological chemistry for new decontamination, separation, and radiotherapeutic strategies
Ehud Altman Dept of Physics atomic, molecular and optical physics, condensed matter physics and materials science
Lisa Alvarez-Cohen Dept of Civil and Environmental Engineering environmental microbiology, biodegradation of environmental contaminants, microbial carbon cycling, molecular tools for microbial ecology, metagenomics, biological hazardous waste treatment, bioremediation of groundwater pollutants such as PCE, TCE, DCE, VC, TCA, DCA, MTBE, BTEX, PBDEs, NDMA, Dioxane, PFOS, PFOA, fire-fighting foams
Adam Arkin Dept of Bioengineering Systems and Synthetic Biology, Environmental Microbiology of Bacteria and Viruses, bioenergy, Biomedicine, Bioremediation, space
John Arnold Dept of Chemistry organometallic chemistry, organometallic catalysis, materials chemistry, coordination chemistry
Polly Arnold Dept of Chemistry synthetic chemistry, inorganic chemistry, organometallic chemistry, actinide, rare earth catalysis
Nitash P. Balsara Dept of Chemical & Biomolecular Engineering chemical engineering, synthesis and characterization of soft microstructured polymer materials, nucleation, neutron scattering, depolarized light scattering
Georjana Barnes Dept of Molecular & Cell Biology biochemistry, genetics, cancer, biology, microtubule cytoskeleton, cell cycle controls, cellular imaging
Helen Bateup Dept of Molecular & Cell Biology molecular and cellular neuroscience, neurodevelopmental disorders, autism, epilepsy, Parkinson's disease
Diana Bautista Dept of Molecular & Cell Biology Helen Wills Neuroscience Institute ion channels, sensory physiology, chemosensation, touch, thermosensation, somatosensory system, itch
Robert G. Bergman Dept of Chemistry organic and inorganic chemistry: synthesis and reaction mechanisms, organotransition metal compounds, homogeneous catalysis
Eric Betzig Dept of Molecular & Cell Biology Dept of Physics Helen Wills Neuroscience Institute imaging microscopy, biophysics
Benjamin Blackman Dept of Plant and Microbial Biology evolution, adaptation, domestication, phenotypic plasticity, flowering time, evo-devo, genomics, plant biology
Leo Blitz Dept of Astronomy astronomy, formation of galaxies, evolution of galaxies, conversion of interstellar gases, milky way, dark matter, dwarf galaxies, interstellar medium, high velocity clouds, hydrogen atom
Kristie Boering Dept of Chemistry Dept of Earth and Planetary Science physical chemistry, climate change, atmospheric chemistry, environmental chemistry, ozone, earth and planetary science, isotopic compositions of atmospheric trace gases, stratospheric ozone, carbon dioxide, nitrous oxide, molecular hydrogen, methane
Jeffrey Bokor Division of Electrical Engineering/EECS nanoscience, electrical engineering, nanoelectronics
Rachel Brem Dept of Plant and Microbial Biology molecular evolution, ecological genetics, genetics and genomics, fungal genetics
Steven E. Brenner Dept of Bioengineering Dept of Molecular & Cell Biology Dept of Plant and Microbial Biology molecular biology, computational biology, evolutionary biology, bioengineering, structural genomics, computational genomics, cellular activity, cellular functions, personal genomics
Stephen Brohawn Dept of Molecular & Cell Biology Helen Wills Neuroscience Institute neurobiology, Structural Biology, biophysics
Thomas D. Bruns Dept of Environmental Science, Policy & Management Dept of Plant and Microbial Biology microbial biology, plant biology, fungi, nucleic acid sequences, basidomycetes, Molecular ecology, ectomycorrhizal fungi communities
Carlos Bustamante Dept of Chemistry Dept of Molecular & Cell Biology Dept of Physics nanoscience, structural characterization of nucleo-protein assemblies, single molecule fluorescence microscopy, DNA-binding molecular motors, the scanning force microscope, prokaryotes
Van P. Carey Dept of Mechanical Engineering mechanical engineering, statistical thermodynamics, near-interface micro- and nanoscale thermophysics and transport in liquid-vapor systems, computational modeling and simulation of energy conversion and transport processes at scales ranging from the molecular level to the device and system level, use of machine learning to enhance energy technology research and the efficiency of energy conversion and transport in applications, and use of machine learning to create next-generation energy technologies that autonomously adapt to maximize their performance and reduce their environmental impact .
Christopher J. Chang Dept of Chemistry Dept of Molecular & Cell Biology Helen Wills Neuroscience Institute chemistry, inorganic chemistry, neuroscience, bioinorganic chemistry, general physiology, organic chemistry, new chemical tools for biological imaging and proteomics, new metal complexes for energy catalysis and green chemistry, chemical biology
Michelle Chang Dept of Chemistry Dept of Molecular & Cell Biology biochemistry, enzymology, synthetic biology, biophysics