Journal Article10.1149/1.2981858
Electrocatalyst Durability under Simulated Automotive Drive Cycles
Masanobu Uchimura,Seiho Sugawara,Yosuke Suzuki,Jianbo Zhang,Shyam S. Kocha +4 more
- 03 Oct 2008
- Vol. 16, Iss: 2, pp 225-234
TL;DR: In this article, the effect of various simplified potential-cycle profiles, operating conditions such as temperature, relative humidity, reactant gases etc., as well as different catalyst materials under normal fuel cell operating voltage ranges (0.95-0.60V) in fuel cells are also presented.
read more
Abstract: Proton Exchange membrane fuel cells (PEMFCs) for automotive applications are subject to hundreds of thousands of potential or load cycles during normal operation of the vehicle. Pt dissolves under such cycling and is a major contributing factor to the lowered durability of PEMFCs. This paper details the effect of various simplified potential-cycle profiles, the effect of operating conditions such as temperature, relative humidity, reactant gases etc., as well as different catalyst materials under normal fuel cell operating voltage ranges (0.95-0.60V) in fuel cells. Results on Pt dissolution utilizing complementary ex-situ methods are also presented. The fundamental and practical implications of varying the operating parameters as well as a possible hypothesis for Pt dissolution are reported.
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Realistic accelerated stress tests for PEM fuel cells: Test procedure development based on standardized automotive driving cycles
Paul Thiele,Yue Yang,Steffen Dirkes,Maximilian Kurt Wick,Stefan Pischinger +4 more
TL;DR: Researchers developed a realistic accelerated stress test for proton exchange membrane fuel cells, simulating automotive driving cycles, and found degradation rates of up to 452 μV h−1, likely caused by Pt dissolution, carbon corrosion, and PTFE loss.
13
Durability Improvement of Pd Core-Pt Shell Structured Catalyst by Porous SiO2 Coating
TL;DR: Porous SiO2 coating was investigated to suppress agglomeration of catalyst nanoparticles (NPs) and mitigate ECSA decay of carbon supported Pd core-Pt shell structured catalyst (Pt/Pd/C).
12
A Simulation Study of Pt Particle Degradation During Potential Cycling Using a Dissolution/Deposition Model
TL;DR: In this paper, the Gibbs-Thomson equation was used to model the Pt particle growth in polymer electrolyte fuel cells, and the particle growth is accelerated by the large difference in the particle sizes.
11
References
•Book
Atlas of Electrochemical Equilibria in Aqueous Solutions
Marcel Pourbaix
- 01 Jun 1974
TL;DR: The Atlas of Electrochemical Equilibria in Aqueous solutions as discussed by the authors is the most complete and complete work on aqueous solvents, which includes a detailed description of the properties of the solvers.
9K
Related Papers (5)
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