Vol. 47, No. 4, Fall 2013 239

University of Connecticut, Chemical & Biomolecular Engineering, 191 Auditorium Road, Unit 3222, Storrs, CT 06269-3222 Tel: (860) 486-4020 I www.CBE.engr.uconn.edu

George Bollas, Aristotle U Thessaloniki Simulation of Energy Processes, Property Models Development

C. Barry Carter, Oxford U, Cambridge U Interfaces & Defects; Ceramics, Materials, TEM, SEM, AFM, Energy

Douglas Cooper, U ColoradoProcess Modeling & Control

Chris Cornelius, Virginia Tech Polymers, Ionomers, Sol-gel Glasses, Synergistic Properties of Hybrid Organic-inorganic Materials

Russell Kunz, RPIFuel Cell Technology and Electrochemistry

Cato Laurencin, MIT, Harvard UAdvanced Biomaterials, Tissue Engineering, Biodegradable Polymers, Nanotechnology

Yu Lei, UC RiversideBionanotechnology, Bio/nanosensor, Bio/nanomaterials, Remediation

Anson Ma, Cambridge UNanomaterials, Complex Fluids, Rheology, Microstructure, Processing

Radenka Maric, Kyoto UNovel Materials for High Temperature Fuel Cells

Jeffrey McCutcheon, YaleMembrane Separations, Polymer Electrospinning, Forward Osmosis/Osmotic Power

Willliam Mustain, IIT Proton Exchange Membrane Fuel Cells, Electrochemical Kinetics and Ionic Transport

Mu-Ping Nieh, UMass AmherstStructural Characterization of Soft Materials, Design of Self-Assembled Materials, Biomembranes

Richard Parnas, UCLABiofuels Process Design, Biodegradable Polymers, Pervaporation Membranes, Biomass Extraction

Leslie Shor, Rutgers Biotechnology, Microbial Assay Systems, Microfluidics

Prabhakar Singh, U SheffieldFuel Cells & Energy

Ranjan Srivastava, U MarylandSystems Biology, Metabolic Engineering, Machine Learning

Luyi Sun, U of Alabama Composite and Polymer Processing

Steve Suib, U Illinois-UrbanaInorganic Chemistry, Environmental Chemistry

Julia Valla, Aristotle U Thessaloniki Environmental Fuels, Nanomaterials for Advanced Processes, Process Simulation

Kristina Wagstrom, Carnegie Mellon UAtmospheric Chemistry and Air Pollution Modeling

Brian Willis, MITNanotechnology, Molecular, Electronics, Semi-conductor Devices and Fuel Cells

Chemical & Biomolecular Engineering at Faculty

• BoothEngineeringCenterforAdvancedTechnologies

• CenterforCleanEnergyEngineering

• CenterforEnvironmentalSciences&Engineering

• InstituteofMaterialsScience

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The Chemical & Biomolecular Engineering Program at UConn provides students with a thor-ough grounding in fundamental chemical engineering principles while offering opportunities and resources to specialize in a wide variety of focus areas. Faculty are engaged in cutting- edge research, with expertise in fields including nanotechnology, biomolecular engineering, green energy, water research, computer applications and polymer engi-neering. Several multidisciplinary centers leverage expertise from diverse departments, colleges, and from the medical school, re-sulting in a unique set of resourc-es and an extraordinary breadth of education. Located in idyllic Storrs, the cam-pus maintains its New England charm while being only 20 min-utes from Hartford, 75 minutes from Boston and 2 hours from New York.

Contact

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