Elizabeth J. Biddinger
Grove School of EngineeringDepartment
Steinman Hall 311
Elizabeth J. Biddinger joined the Department of Chemical Engineering at City College of New York as an Assistant Professor in August of 2012. Her research interests encompass energy and environmental concerns. She has experience in catalysis, electrochemistry, alternative solvents, green chemistry and sustainable engineering. Prior to joining City College, Dr. Biddinger was a Post-doctoral Fellow at the Georgia Institute of Technology studying alternative solvent systems for green chemistry and sustainable engineering applications, including CO2 capture, nanoparticle synthesis and homogeneous catalyst recycle. She received her PhD in 2010 in Chemical Engineering from The Ohio State University and her BS in 2005 in Chemical Engineering from Ohio University. Her research at Ohio State involved the development and investigation of nitrogen-containing carbon nanostructures as oxygen reduction electrocatalysts for PEM and direct methanol fuel cells. In the past, she also worked on electrocatalysis development for the production of hydrogen by ammonia electrolysis.
At Ohio State, she received multiple awards including the Council of Chemical Research (CCR) Award to participate in the annual CCR meeting, the 2009-2010 Dow Fellowship, the Ohio State University Fellow Award, the Department of Chemical and Biomolecular Outstanding Teaching Associate Award, and travel awards to the North American Catalysis Society National Meeting and the American Institute of Chemical Engineering National Meeting.
Professor Biddinger has held several leadership posts in the past including chair and vice-chair of the Central Ohio Professional Section of American Institute of Chemical Engineers, member of the Atlanta Professional Section of the Society of Women Engineers Outreach Programming Committee, Academic Officer of the Chemical Engineering Graduate Council at Ohio State and as the Ohio University Manasseh Cutler Scholars Class of 2005 Class Agent.
At City College, Professor Biddinger's research program focuses on the development of new electrocatalysis systems and the use of alternative solvents for applications in energy and the environment fields.
Georgia Institute of Technology, Atlanta, Georgia, 2010-2012
Postdoctoral Fellow, Chemical and Biomolecular Engineering
The Ohio State University, Columbus, Ohio
Ph.D., Chemical and Biomolecular Engineering, 2010
Ohio University, Athens, Ohio
B.S., Chemical Engineering, Mathematics minor, Magna Cum Laude, 2005
Electrochemistry; Catalysis; Separations; Alternative Solvents; Green Chemistry & Sustainable Engineering
• A.L. Rohan, J.R. Switzer, K.M. Flack, R.J. Hart, S. Sivaswamy, E.J. Biddinger, M. Talreja, M. Verma, S. Faltermeier, P.T. Nielsen, P. Pollet, G.F. Schuette, C.A. Eckert, C.L. Liotta, “The Synthesis and the Chemical and Physical Properties of Non-Aqueous Silylamine Solvents for Carbon Dioxide Capture,” ChemSusChem, In Press, DOI: 10.1002/cssc.201200393.
• D. von Deak, D. Singh, E.J. Biddinger, J.C. King, B. Bayram, J.T. Miller, U.S. Ozkan, “Investigation of Sulfur Poisoning of CNx Oxygen Reduction Catalysts for PEM Fuel Cells,” Journal of Catalysis, 285 (2012), 145-151.
• E.J. Biddinger, D. von Deak, D. Singh, H. Marsh, B. Tang, D.S. Knapke, U.S. Ozkan, “Examination of Catalyst Loading Effects on the Selectivity of CNx and Pt/VC ORR Catalysts using RRDE,” Journal of The Electrochemical Society, 158 (2011), B402-B409.
• D. von Deak, E.J. Biddinger, U.S. Ozkan, “Carbon Corrosion Characteristics of CNx Nanostructures in Acidic Media and Implications for ORR Performance,” Journal of Applied Electrochemistry, 41 (2011), 757-763.
• E.J. Biddinger, U.S. Ozkan, “Role of Graphitic Edge Plane Exposure in Carbon Nanostructures for Oxygen Reduction Reaction,” Journal of Physical Chemistry C, 114 (2010), 15306-15314.
• E.J. Biddinger, D. von Deak, H. Marsh, U.S. Ozkan, “RRDE Catalyst Ink Aging Effects on Selectivity to Water Formation in ORR,” Electrochemical and Solid-State Letters, 13 (2010), B98-B100.
• E.J. Biddinger, D.S. Knapke, D. von Deak, U.S. Ozkan, “Effect of Sulfur as a Growth Promoter for CNx Nanostructures as PEM and DMFC ORR Catalysts,” Applied Catalysis B: Environmental, 96 (2010), 72-82.
• X. Bao, D. von Deak, E.J. Biddinger, U.S. Ozkan, C.M. Hadad, “A Computational Exploration of the Oxygen Reduction Reaction over a Carbon Catalyst Containing a Phosphinate Functional Group,” Chemical Communications, 46 (2010), 8621-8623.
• D. von Deak, E.J. Biddinger, K.A. Luthman, U.S. Ozkan, “The Effect of Phosphorus in Nitrogen-Containing Carbon Nanostructures on Oxygen Reduction in PEM Fuel Cells,” Carbon, 48 (2010), 3637-3639.
• M.P.Woods, E.J. Biddinger, P.H. Matter, B. Mirkelamoglu, U.S. Ozkan, “Correlation Between Oxygen Reduction Reaction and Oxidative Dehydrogenation Activities over Nanostructured Carbon Catalysts,” Catalysis Letters, 136 (2010), 1-8.
• E.J. Biddinger, D. von Deak, U.S. Ozkan, “Nitrogen-Containing Carbon Nanostructures as Oxygen-Reduction Catalysts,” Topics in Catalysis, 52 (2009), 1566-1574.
• E.P. Bonnin, E.J. Biddinger, G.G. Botte, “Effect of Catalyst on Electrolysis of Ammonia Effluents,” Journal of Power Sources, 182 (2008), 284-290.
• E.J. Biddinger, U.S. Ozkan, “Methanol Tolerance of CNx Oxygen Reduction Catalysts,” Topics in Catalysis, 46 (2007), 339-348.
• P.H. Matter, E. Wang, M. Arias, E.J. Biddinger, U.S. Ozkan, “Oxygen Reduction Reaction Activity and Surface Properties of Nanostructured Nitrogen-Containing Carbon,” Journal of Molecular Catalysis A: Chemical, 264 (2007), 73-81.
• P.H. Matter, E. Wang, M. Arias, E.J. Biddinger, U.S. Ozkan, “Oxygen Reduction Reaction Catalysts Prepared from Acetonitrile Pyrolysis over Alumina-Supported Metal Particles,” Journal of Physical Chemistry B, 110 (2006), 18374-18384.
• P.H. Matter, E.J. Biddinger, U.S. Ozkan, “Non-precious metal oxygen reduction catalysts for PEM fuel cells,” Catalysis, Spivey, J.J., Ed. The Royal Society of Chemistry, Cambridge, UK, Vol. 20 (2007), 338-361.