Jeremy P. Meyers

Dr. Jeremy Meyers earned his Ph.D. in chemical engineering from the University of California, Berkeley in 1998. He joined the faculty of The University of Texas at Austin in 2006. Dr. Meyers researches the design and optimization of electrochemical energy systems, which offer clean and efficient means of power generation and energy storage. His work has focused primarily on proton-exchange membrane fuel cells. He is interested in using both simulations and experimentation to better understand the phenomena which determine the performance and durability of electrochemical energy systems. Meyers has developed models to describe the performance of direct methanol fuel cells and ones to depict platinum dissolution and carbon corrosion in a typical fuel cell system. He is particularly interested in transport phenomena, performance modeling and thermodynamics of electrochemical systems. In 2006, Dr. Meyers and several colleagues at UTC Power won the George Mead Medal for Engineering Achievement, United Technologies' highest technical award for their development of a novel hydrogen fuel cell water and thermal management system. Also, in 2006, Dr. Meyers served as co-chair of the Gordon Research Conference on fuel cells, one of the premier international conferences on the science and engineering of fuel cell development.

Selected Publications

1. Peter Olapade, Jeremy P Meyers , Rodney L Borup , Rangachary Mukundan, "Parametric Study of the Morphological Proprieties of HT-PEMFC Components for Effective Membrane Hydration", Journal of the Electrochemical Society, Vol. 158, (2011), 6, pp. 639-649
2. Rachel E. Gerver and Jeremy P Meyers, "Three-Dimensional Modeling of Electrochemical Performance and Heat Generation of Lithium-Ion Batteries in Tabbed Planar Configurations", Journal of the Electrochemical Society, Vol. 158, (2010), 7, pp. 835-843

Most Recent Publications

1. Timothy J Silverman, Jeremy P Meyers, Joseph J Beaman, "Dynamic thermal, transport and mechanical model of fuel cell membrane swelling," Fuel Cells, (2011)
2. Seokkoo Kim and Jeremy P. Meyers, "The influence of hydrogen- and cation-underpotential deposition on oxide-mediated Pt dissolution in proton-exchange membrane fuel cells," Electrochimica Acta, (2011)
3. Peter Olapade, Jeremy P Meyers, Rangachary Mukundan, John R Davey, and Rodney L Borup, "Modeling the Dynamic Behavior of Proton-Exchange Membrane Fuel Cell," Journal Of The Electrochemical Society, Vol. 158, (2011), 5, pp. 536-549
4. Peter Olapade, Jeremy P Meyers , Rodney L Borup , Rangachary Mukundan, "Parametric Study of the Morphological Proprieties of HT-PEMFC Components for Effective Membrane Hydration," Journal Of The Electrochemical Society, Vol. 158, (2011), 6, pp. 639-649
5. Joshua Garvin and Jeremy P Meyers, "Modeling of coupled multiphase transport in direct methanol fuel cell diffusion layers," Journal Of The Electrochemical Society, Vol. 158, (2011), 9, pp. 1119-1127
6. Babar M. Koraishy, Jeremy P Meyers, and Kristin L Wood, "Manufacturing of Direct Methanol Fuel Cell Electrodes By Spraying," Journal Of The Electrochemical Society, (2011)
7. Adam Z Weber, Matthew M Mench, Jeremy P Meyers, Philip N Ross, Jeffrey T Gostick, Qinghua Liu, "Redox Flow Batteries, a Review," Journal Of Applied Electrochemistry, (2011)
8. Rachel E. Gerver and Jeremy P Meyers, "Three-Dimensional Modeling of Electrochemical Performance and Heat Generation of Lithium-Ion Batteries in Tabbed Planar Configurations," Journal Of The Electrochemical Society, Vol. 158, (2010), 7, pp. 835-843
9. Kevin O Neil, Jeremy P Meyers, Robert Darling, and Michael Perry, "Oxygen-gain analysis to optimize fuel cell cathode performance," International Journal Of Hydrogen Energy, (2010)
10. Chioke Harris, Jeremy P Meyers, and Michael E Webber, "A unit-commitment study of the application of energy storage toward the integration of renewable generation," Journal Of Renewable And Sustainable Energy, (2010)