Fernando H. Garzon
University of New Mexico
170 Papers
1.4K Citations
Fernando H. Garzon is an academic researcher from University of New Mexico. The author has contributed to research in topics: Catalysis & Thin film. The author has an hindex of 35, co-authored 156 publications. Previous affiliations of Fernando H. Garzon include Los Alamos National Laboratory & Sandia National Laboratories.
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Papers
Scientific aspects of polymer electrolyte fuel cell durability and degradation.
Rodney L. Borup,Jeremy P. Meyers,Bryan S. Pivovar,Yu Seung Kim,Rangachary Mukundan,Nancy Garland,Deborah J. Myers,Mahlon S. Wilson,Fernando H. Garzon,David L. Wood,Piotr Zelenay,Karren L. More,Ken Stroh,Thomas A. Zawodzinski,James M. Boncella,James E. McGrath,Minoru Inaba,Kenji Miyatake,Michio Hori,Kenchiro Ota,Zempachi Ogumi,Seizo Miyata,Atsushi Nishikata,Zyun Siroma,Yoshiharu Uchimoto,Kazuaki Yasuda,Ken'ichi Kimijima,Norio Iwashita +27 more
TL;DR: The research focuses on the durability of polymer electrolyte fuel cells (PEFCs), in particular, membrane degradation, and he has been involved in NEDO R&D research projects on PEFC durability since 2001.
3.2K
PEM fuel cell electrocatalyst durability measurements
TL;DR: In this paper, X-ray diffraction (XRD) was used to determine the degree of electrocatalyst sintering in polymer electrolyte membrane fuel cells (PEMFCs).
513
Surface Area Loss of Supported Platinum in Polymer Electrolyte Fuel Cells
TL;DR: In this paper, a crystallite migration particle growth mechanism is suggested by the shape of the particle size distribution curves, which may possibly be attributed to the different hydration levels at the anode and the cathode in operating polymer electrolyte fuel cells.
421
Ruthenium Crossover in Direct Methanol Fuel Cell with Pt-Ru Black Anode
TL;DR: In this article, the authors provide electrochemical and X-ray fluorescence evidence of ruthenium crossover in direct methanol fuel cells using a state-of-the-art Pt-Ru alloy catalyst at the anode.
289
Relating rates of catalyst sintering to the disappearance of individual nanoparticles during Ostwald ripening.
Sivakumar R. Challa,Andrew DeLaRiva,Thomas Willum Hansen,Thomas Willum Hansen,Stig Helveg,Jens Sehested,Poul L. Hansen,Fernando H. Garzon,Abhaya K. Datye +8 more
TL;DR: A new approach for predicting the long-term sintering of NPs is presented wherein microscopic observations of the ripening of individual NPs are used to extract energetic parameters that allow a description of the collective behavior of the entire population of NPS.
288