Supported Core@Shell Electrocatalysts for Fuel Cells: Close Encounter with Reality

Authors
Hwang, Seung JunYoo, Sung JongShin, JunghoCho, Yong-HunJang, Jong HyunCho, EunaeSung, Yung-EunNam, Suk WooLim, Tae-HoonLee, Seung-CheolKim, Soo-Kil
Issue Date
2013-02-19
Publisher
NATURE PUBLISHING GROUP
Citation
SCIENTIFIC REPORTS, v.3
Abstract
Core@shell electrocatalysts for fuel cells have the advantages of a high utilization of Pt and the modification of its electronic structures toward enhancement of the activities. In this study, we suggest both a theoretical background for the design of highly active and stable core@shell/C and a novel facile synthetic strategy for their preparation. Using density functional theory calculations guided by the oxygen adsorption energy and vacancy formation energy, Pd3Cu1@Pt/C was selected as the most suitable candidate for the oxygen reduction reaction in terms of its activity and stability. These predictions were experimentally verified by the surfactant-free synthesis of Pd3Cu1/C cores and the selective Pt shell formation using a Hantzsch ester as a reducing agent. In a similar fashion, Pd@Pd4Ir6/C catalyst was also designed and synthesized for the hydrogen oxidation reaction. The developed catalysts exhibited high activity, high selectivity, and 4,000 h of long-term durability at the single-cell level.
Keywords
OXYGEN REDUCTION ACTIVITY; PLATINUM-MONOLAYER SHELL; BIMETALLIC COLLOIDS; HIGH-STABILITY; NANOPARTICLES; NANOCRYSTALS; SEGREGATION; OXIDATION; CATALYSTS; DESIGN; OXYGEN REDUCTION ACTIVITY; PLATINUM-MONOLAYER SHELL; BIMETALLIC COLLOIDS; HIGH-STABILITY; NANOPARTICLES; NANOCRYSTALS; SEGREGATION; OXIDATION; CATALYSTS; DESIGN; fuel cell; electrocatalysts; core-shell; oxygen reduction reaction; hydrogen oxidation reaction
ISSN
2045-2322
URI
https://pubs.kist.re.kr/handle/201004/128353
DOI
10.1038/srep01309
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KIST Article > 2013
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