CHEMICAL AND BIOMOLECULAR ENGINEERING A Distinctive Academic Experience Financial Advantage Lifestyle • Vast interdisciplinary research opportunities • Competitive financial support • Diverse, technologically sophisticated • Close working relationships with faculty • Affordable housing city with open, beautiful spaces • New, state-of-the-art facilities • Cost of living 6.3% below the • Access to top-rated medical facilities national average • Cultural, recreational, and sports activities including college football (National Champion eight times); pro Faculty and Research Areas hockey and soccer. Aravind R. Asthagiri, Carnegie Mellon University Li-Chiang Lin, University of California-Berkeley Computational catalysis, modeling surface chemistry. Materials discovery using molecular simulations for separations, storage and catalysis. Bhavik R. Bakshi, MIT Sustainability science and engineering. Umit S. Ozkan, Iowa State University Heterogeneous and electro-catalysis, kinetics, and catalytic materials. Robert S. Brodkey, University of Wisconsin Experimental measurements for validation of computational fluid mechanics Andre F. Palmer, Johns Hopkins University and applications to mixing processes. Biomaterials for transfusion medicine and tissue engineering. Nicholas A. Brunelli, California Institute of Technology Michael Paulaitis, Princeton University Design of heterogeneous catalytic materials and nanomaterials. Molecular simulations and modeling of weak protein-protein interactions. Jeffrey J. Chalmers, Cornell University James F. Rathman, University of Oklahoma Immunomagnetic cell separation, cancer detection, bioengineering. Molecular informatics and modeling complex chemical and biological phenomena. Stuart L. Cooper, Princeton University Polymer physics, block polymers, ionomers, polyurethanes and biomaterials. Katelyn E. Swindle-Reilly, Washington University in St. Louis Polymeric biomaterials, biomimetics and hydrogel delivery systems. Liang-Shih Fan, West Virginia University Process development of advanced combustion and clean energy systems, David L. Tomasko, University of Illinois at Urbana-Champaign gas-solid fluidization. Molecular thermodynamics, separations, and STEM retention. Martin Feinberg, Princeton University Andrew Tong, The Ohio State University Mathematics of complex chemical systems. Process development of advanced combustion and clean energy systems, gas-solid fluidization. Lisa Hall, University of Illinois at Urbana-Champaign Theory and simulation of polymeric systems. Jessica O. Winter, University of Texas at Austin Nano biotechnology, cancer diagnostics, cancer cell migration. W.S. Winston Ho, University of Illinois at Urbana-Champaign Molecular and chemical membrane separations. David Wood, Rensselaer Polytechnic Institute Biotechnology development through protein engineering. Kurt W. Koelling, Princeton University Rheology, polymer processing, and microfluidics. Barbara E. Wyslouzil, California Institute of Technology Aerosol and particle technology. Isamu Kusaka, California Institute of Technology Statistical mechanics, transport phenomena in nano scale systems. Shang-Tian Yang, Purdue University Biochemical, metabolic, and tissue engineering; biotechnology. L. James Lee, University of Minnesota Nanobiotechnology and polymers, composites and nanomaterials. Jacques Zakin, New York University Drag reduction, heat transfer, rheology. Contact: Graduate Program Coordinator • William G. Lowrie Deptartment of Chemical and Biomolecular Engineering • 151 W. Woodruff Avenue, Columbus, OH 43210-1350 email: [email protected] • ph: (614) 292-9076 • fax: (614) 292-3769 • web: cbe.osu.edu 336 Chemical Engineering Education.