 |
Lewis-Sigler Institute
|
 |
QCB Faculty |
Research Interests |
Austin, Robert
Professor, Physics |
What physics can do for biology, what biology can do for physics. Dynamics of proteins, DNA and cells |
Bassler, Bonnie
Professor, Molecular Biology |
Intercellular communication and quorum sensing in bacteria |
Berry, Michael J.
Associate Professor, Molecular Biology |
Neural computation in the retina |
Bialek, William
Professor, Physics |
Coding, computation and learning in the nervous system; noise and the physical limits to biological functions; statistical mechanics and information theory |
Botstein, David
Professor, Molecular Biology |
Genome-wide studies of gene expression through the life cycle and experimental evolution of budding yeast (Saccharomyces cerevisiae); quantitative analysis and intuitive display of genome-scale biological information. |
Broach, James
Professor, Molecular Biology |
Gene expression in the yeast Saccharomyces cerevisiae |
Callan, Curtis
Professor, Physics |
Theoretical problems in genomics |
Car, Roberto
Professor, Chemistry |
Chemical physics and materials science; electronic structure theory and ab-initio molecular dynamics. Computer modeling and simulation of solids, liquids, disordered systems, and molecular structures. Structural phase transitions and chemical reactions |
Carmona, Rene
Professor, ORFE |
Statistical data analysis. Signal and image reconstructions. The mathematics of functional imaging of the brain. |
Chazelle, Bernard
Professor, Computer Science |
Theoretical computer science, with a particular emphasis on the theory of algorithms and data structures |
Chaikin, Paul
Professor, Physics |
Effects of dimensionality, Coulomb correlation, and disorder in condensed matter systems, spin-density-wave states and superconductivity in organic metals, superconducting wire networks, colloidal physics, sedimentation in fluidized beds |
Cinlar, Erhan
Professor, ORFE |
All aspects of stochastic modeling and applied probability: Markov processes, particle systems with creation and annihilation, dynamic population models, and transport by stochastic flows. |
Cohen, Jonathan
Professor, Psychology |
Neural mechanisms underlying higher mental function |
Coller, Hilary
Assistant Professor, Molecular Biology |
Molecular characterization of quiescence in human cells |
Cox, Edward
Professor, Molecular Biology |
The genesis of spatial patterns in simple systems, the biophysics of DNA in confined environments |
Dismukes, G. Charles
Professor, Chemistry |
Biophysical studies of enzyme structure and mechanisms |
Dobkin, David
Professor, Computer Science |
Research lies between the areas of computational geometry and computer graphics |
Dobson, Andrew P.
Professor, Ecology & Evolutionary Biology |
Conservation biology and disease control; population dynamics and coevolution of parasites and their hosts; population dynamics and life-history strategies of birds, primates, and elephants |
Enquist, Lynn
Professor, Molecular Biology |
Neurovirology |
Fan, Jianqing
Professor, Operations Research & Financial Engineering |
Biostatistics, data-analytic modeling, functional data analysis, survival analysis, and computational biology. Primary research focuses on developing and justifying statistical methods that arise from various scientific disciplines. |
Finkelstein, Adam
Associate Professor, Computer Science |
Computer graphics |
Floudas, Christodoulos A.
Professor, Chemical Engineering |
Chemical process systems engineering at the interface of chemical engineering, applied mathematics, operations research, computer science, and molecular biology |
Funkhouser, Thomas
Assistant Professor, Computer Science |
Computer graphics, three-dimensional modeling, and data visualization |
Hasan, Zahid
Assistant Professor, Physics |
Spectroscopic studies of strongly interacting quantum electron (many-body) systems and macroscopic co-operative phenomena |
Haxby, James
Professor, Psychology |
Investigating the neural systems that face and object perception |
Hecht, Michael
Associate Professor, Chemistry |
Design of de novo proteins |
Hedin, Lars O.
Professor, Ecology & Evolutionary Biology |
Ecosystem analysis, with emphasis on the emergence and maintenance broad-scale patterns in the cycling of nutrients and trace gases |
Holmes, Philip
Professor, Mechanical & Aerospace Engineering |
Nonlinear dynamics and differential equations, developing qualitative and analytical methods for studying mathematical models of solid, fluid, and biological systems |
Hopfield, John
Professor, Molecular Biology |
Computational neurobiology/biophysics |
Hughson, Fred
Associate Professor, Molecular Biology |
Structural foundations of intracellular transport and secretion |
Kastner, Sabine
Assistant Professor, Psychology |
Neural mechanisms for visual perception and its modulation by cognitive processes such as attention, memory and learning in the human brain |
Kruglyak, Leonid
Professor, Ecology & Evolutionary Biology |
Genetic basis of common diseases and other traits, using mathematical and computational methods. |
Landweber, Laura
Associate Professor, Ecology & Evolutionary Biology |
Molecular evolution of scrambled genes, the genetic code, RNA; RNA editing, in vitro evolution, DNA computers |
Leonard, Naomi
Professor, Mechanical & Aerospace Engineering |
Nonlinear control theory; Geometric mechanics and control; Control of underactuated dynamical systems; Cooperative and coordinated control of groups/formations; Mobile sensor networks and adaptive ocean sampling; Underwater gliders and other autonomous underwater vehicles (AUVs) |
Levin, Simon A.
Professor, Ecology & Evolutionary Biology |
Dynamics of populations and communities; spatial heterogeneity and problems of scale; evolutionary ecology; theoretical and mathematical ecology; biodiversity and ecosystem processes; dynamics of disease |
Li, Kai
Professor, Computer Science |
Computer architecture, operating systems, parallel systems, and networking |
Llinas, Manuel
Assistant Professor, Molecular Biology |
Molecular mechanisms of the malaria parasite Plasmodium falciparum |
Murphy, Coleen
Assistant Professor, Molecular Biology |
Molecular mechanisms of aging |
Norman, Ken
Assistant Professor, Psychology |
Using biologically realistic neural network models to explore how the brain gives rise to episodic memory |
Ong, Nai-Phuan
Professor, Physics |
Strange-metal aspects of the cuprate superconductors, vortex lattice melting and dynamics, Josephson plasma oscillations, giant magnetoresistance in manganites, and scanning Hall probe imaging |
Pacala, Stephen W.
Professor, Ecology & Evolutionary Biology |
Population biology and community ecology of plants; theoretical and mathematical ecology; global interactions among the biosphere, atmosphere, and hydrosphere |
Rabinowitz, Joshua
Assistant Professor, Chemistry |
Uses a robust means of measuring the concentrations and fluxes of numerous intracellular metabolites in parallel. |
Rubenstein, Daniel
Professor, Ecology & Evolutionary Biology |
Decision-making in animals |
Rusinkiewicz, Szymon
Assistant Professor, Computer Science |
Acquisition and use of 3D shape and appearance data of physical objects |
Rye, Hays
Assistant Professor, Molecular Biology |
Molecular chaperones in protein folding and endocytosis |
Schapire, Robert
Professor, Computer Science |
Machine learning; using data to make accurate predictions. Classification of learning problems in which the goal is to classify objects of some kind into a fixed set of categories. |
Schupbach, Gertrud
Professor, Molecular Biology |
Genetic and molecular analysis of oogenesis in Drosophila melanogaster |
Semmelhack, Martin
Professor, Chemistry |
Organic Synthesis and Organometallic Chemistry: Development of synthesis methodology with transition metal reagents; synthesis of unusual ring systems in natural and unnatural molecules; functional models of the enediyne toxins |
Shaevitz, Joshua
Assistant Professor, Physics |
Experimental research in cellular and molecular biophysics |
Shi, Yigong
Professor, Molecular Biology |
Structural biology of cancer |
Shvartsman, Stanislav Y.
Assistant Professor, Chemical Engineering |
Networks of intracellular proteins define the repertoire of cellular responses to environmental inputs |
Singer, Burton
Professor, Woodrow Wilson School |
Development of mathematical and statistical methods for analysis of longitudinal surveys in sociology, economics, and epidemiology; identification of social, biological, and environmental risks associated with vector-borne diseases in the tropics and chronic diseases of the elderly; and integration of psychosocial and biological evidence to characterize pathways to alternative states of health. |
Singh, Jaswinder Pal
Associate Professor, Computer Science |
Boundary of applications and high-performance (parallel/distributed) systems. Includes development of effective parallel and distributed applications on many high-performance platforms, and studying the implications of these applications for the design of multiprocessor architectures, programming models and software systems. |
Singh, Mona
Associate Professor, Computer Science |
Bioinformatics; developing computational methods for deciphering genomic data at the level of proteins; algorithms for genome-level analysis of protein structure, function and interactions. |
Sondhi, Shivaji
Associate Professor, Physics |
Materials in which the interactions among the electrons are important, odd for a qualitative understanding of their behavior. |
Steiglitz, Kenneth
Professor, Computer Science |
Storage of information in states of optical solitons, the transformation of these states when solitons collide, and the computational power of solitonic systems. |
Stengel, Robert
Professor, Electrical Engineering |
Bioinformatic and biostatistical analysis of colorectal cancer; improving the efficiency, performance, and safety of air transportation in the United States by identifying promising targets for development, by conducting associated long-term research, and by educating technological leaders. |
Stern, David
Assistant Professor, Ecology & Evolutionary Biology |
Evolutionary developmental biology |
Stock, Jeffry
Professor, Molecular Biology |
Membrane receptors and signal transduction |
Storey, John
Professor,Molecular Biology |
Quantitative and functional genomics |
Tank, David
Professor, Mol. Biology/Physics |
Measurement and analysis of neural circuit dynamics |
Tavazoie, Saeed
Associate Professor, Molecular Biology |
Genomic and computational studies of mammalian development |
Troyanskaya, Olga
Assistant Professor, Computer Science | Computational methods with an experimental component to develop comprehensive descriptions of genetic systems of cellular controls, including those whose malfunctioning becomes the basis of genetic disorders or others whose failure might produce developmental defects in model systems. |
Wang, Samuel S.H.
Assistant Professor, Molecular Biology |
Dynamics and learning in neural circuits |
Ward, Bess B.
Professor, Geology |
Marine and global nitrogen cycle, molecular and immunological probes for marine bacteria and bacterial processes (especially nitrification and denitrification), microbial ecology, xenobiotic transformations by bacterial communities |
Weiss, Ron
Assistant Professor, Electrical Engineering |
Biochemical and cellular computation, synthetic gene networks, cell signaling, microbial engineering and robotics, quorum sensing, molecular computation, nanoscale fabrication |
Wieschaus, Eric
Professor, Molecular Biology |
Patterning in the early Drosophila embryo |
Wingreen, Ned
Professor, Molecular Biology |
Intracellular networks in bacteria |
Wood, David W.
Assistant Professor, Chemical Engineering |
Protein engineering and bioseparations |
| Back to QCB@Princeton |