Global Climate & Energy Project
STANFORD UNIVERSITY
Results and Publications
Micro and Nano Scale Electrochemistry Applied to Fuel CellsStart Date: January 2003
Status: Completed
Investigators
Fritz B. Prinz, Professor, Mechanical Engineering; Ryan O'Hayre and Minhwan Lee, Graduate Researchers, Stanford University
Annual Reports Publications
- O’Hayre, R., M. Lee, F. B. Prinz, and S. V. Kalinin. “Frequency dependent transport imaging by scanning probe microscopy .” In: Scanning Probe Microscopy: Electrical and Electrochemical Phenomena at the Nanoscale, Gruverman and S. V. Kalinin (Eds.), Springer Verlag, New York (2007).
- Lee, M., W. Lee, and F. B. Prinz. “Topology artifact suppressed Kelvin probe microscopy.” Nanotechnology (Submitted, 2006).
- O’Hayre, R., D. M. Barnett, and F. B. Prinz. “The triple phase boundary: A mathematical model and experimental investigations for fuel cells.” Journal of the Electrochemical Society, Vol. 152, No. 2, A439-A444, doi: 10.1149/1.1851054 (2005).
- O’Hayre, R. & Prinz, F.B. The Air/Platinum/Nafion Triple Phase Boundary: Characteristics, Scaling, and Implications for Fuel Cells. J. Electrochem. Soc. 151, A756 (2004)
- O’Hayre, R., Feng, G., Nix, W.D. & Prinz, F.B. Quantitative Impedance Measurement Using Atomic Force Microscopy. J. App. Phys. 96:6, 3540-3549 (2004)
- O’Hayre, R., Lee, M. & Prinz, F.B. Ionic and Electronic Impedance Imaging Using Atomic Force Microscopy. J. App. Phys. 95:12, 8382-8392 (2004)
- O’Hayre, R. “Micro Scale Electrochemistry: Application to Fuel Cells.” PhD Thesis, Dept. of Materials Science and Engineering, Stanford University (2004). http://www-rpl.stanford.edu/user/files/papers/ryan-thesis-double.pdf
- Fasching, R., Y. Tao, S.J. Bai, K. Hammerick, L. Smith, R. Greco, and F. Prinz. “Next generation sensors for measuring ionic flux in live cells.” In: Nano Biology, L. Smith, F. Prinz, R. Greco, Ed., CRC, Boca Raton, (in press, 2004).
Updated March 2006