Improved platinum-nickel nanoparticles with dopamine-derived carbon shells for proton exchange membrane fuel cells

Authors
Jang, InjoonLee, SehyunJang, Jue-HyukAhn, MinjehYoo, Sung Jong
Issue Date
2022-08
Publisher
John Wiley & Sons Inc.
Citation
International Journal of Energy Research, v.46, no.10, pp.13602 - 13612
Abstract
Using platinum-based alloy nanocatalysts with other transition metals has the advantages of enhancing the oxygen reduction reaction (ORR) activity and reducing the platinum usage. However, there are many challenges to using nanocatalysts, including their instability, which hinder their practical application. In this study, we employed a strategy to improve the intrinsic instability of a nanocatalyst by encapsulating a dopamine-derived carbon layer on the surfaces of nanoparticles. The carbon layer formed on the surfaces of platinum-nickel (PtNi) nanoparticles demonstrated improved stability by inhibiting the nanoparticle growth, even during the heat treatment process. This could induce a high degree of alloying while minimizing the loss of surface area for the nanoparticles, which ensured an improved catalyst activity. Additionally, the PtNi nanocatalyst with the dopamine-derived carbon layer showed an improved performance and stability under long-term fuel cell operation conditions, thus proving the practicality of this strategy. The strategy developed in this study is not only a novel and facile approach to the synthesis of alloy catalysts, but also addresses the inherent instability of nanoparticles, which will encourage the practical use and commercialization of alloy nanocatalysts.
Keywords
OXYGEN REDUCTION REACTION; CATALYSTS; ELECTROCATALYSTS; STABILITY; HYDROGEN; LAYER; carbon shell; dopamine; oxygen reduction reaction; proton exchange membrane fuel cell; PtNi alloy nanocatalyst
ISSN
0363-907X
URI
https://pubs.kist.re.kr/handle/201004/114850
DOI
10.1002/er.8082
Appears in Collections:
KIST Article > 2022
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