Computational design of CO-tolerant Pt3M anode electrocatalysts for proton-exchange membrane fuel cells
Author:
Affiliation:
1. College of Architecture and Environment
2. Sichuan University
3. Chengdu
4. P. R. China
5. Department of Chemistry and the Institute for Computational Engineering and Sciences
6. The University of Texas at Austin
7. Austin
8. USA
Abstract
Surface phase diagram for Pt3Mo indicating suitable conditions for CO oxidation.
Funder
Welch Foundation
U.S. Department of Energy
China Scholarship Council
Publisher
Royal Society of Chemistry (RSC)
Subject
Physical and Theoretical Chemistry,General Physics and Astronomy
Link
http://pubs.rsc.org/en/content/articlepdf/2019/CP/C8CP07086E
Reference31 articles.
1. Carbon monoxide electrooxidation on well-characterized platinum-ruthenium alloys
2. H2 and CO Electrooxidation on Well-Characterized Pt, Ru, and Pt-Ru. 1. Rotating Disk Electrode Studies of the Pure Gases Including Temperature Effects
3. H2 and CO Electrooxidation on Well-Characterized Pt, Ru, and Pt-Ru. 2. Rotating Disk Electrode Studies of CO/H2 Mixtures at 62 .degree.C
4. Composition and activity of high surface area PtRu catalysts towards adsorbed CO and methanol electrooxidation—
5. New PtRu Alloy Colloids as Precursors for Fuel Cell Catalysts
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