Joan M. Brennecke, Keating-Crawford Professor of Chemical and Biomolecular Engineering at the University of Notre Dame, is the recipient of a U.S. Department of Energy (DOE) grant for research that could fundamentally change the way the country uses and produces energy.
Brennecke received the $2.5-million grant through the department’s Advanced Research Projects Agency-Energy (ARPA-E) to study how solid compounds will turn into an ionic liquid when they react with CO2 and turn back into a solid when the CO2 is released. Ionic liquids require less energy than today’s approaches to capturing CO2.
In 2004, as part of a project sponsored by the DOE’s National Energy Technology Laboratory, a research team led by Brennecke and Edward J. Maginn, a Notre Dame professor of chemical and biomolecular engineering, demonstrated that ionic liquids have the potential to efficiently capture CO2 from the flue gas of coal-fired plants. Ionic liquids, they believe, are a potentially pivotal component of an integrated system that can safely and economically sequester combustion-generated CO2, thereby mitigating its impact on climate change.
Internationally known for her research in the development of solvents, specifically supercritical fluids and ionic liquids, Brennecke’s research interests include supercritical fluid technology, ionic liquids, thermodynamics, environmentally benign chemical processing, and carbon dioxide separation, storage and usage.
Throughout her career, Brennecke has received numerous awards for her research, as well as for her contributions in the classroom. Most recently, she was chosen to receive the Ernest Orlando Lawrence Award from the DOE.
She also was selected as the 2008 Julius Stieglitz Lecturer Award by the American Chemical Society (ACS). She also has received the 2007 John M. Prausnitz Award for outstanding achievement in applied chemical thermodynamics from the Conference on Properties and Phase Equilibria for Product and Process Design, the Professional Progress Award from the American Institute of Chemical Engineers (AIChE) and the 2001 Ipatieff Prize from the ACS in recognition of her high-pressure studies of the local structure of supercritical fluid solutions and the effect of this local structure on the rates of homogeneous reactions. In 1991, the National Science Foundation honored her with the Presidential Young Investigator Award.
A member of AIChE, the ACS and the American Society for Engineering Education, Brennecke is past chair of the Council for Chemical Research and currently serves on the editorial board of the journal Green Chemistry.
A graduate of the University of Texas, Brennecke received her master’s and doctoral degrees in chemical engineering from the University of Illinois. She has served as a Notre Dame faculty member since 1989.