Oxygen-deficient triple perovskites as highly active and durable bifunctional electrocatalysts for oxygen electrode reactions

Authors
Kim, Nam-InSa, Young JinYoo, Tae SupChoi, Sung RyulAfzal, Rana ArsIanChoi, TaekjibSeo, Young-SooLee, Kug-SeungHwang, Jun YeonChoi, Woo SeokJoo, Sang HoonPark, Jun-Young
Issue Date
2018-06
Publisher
AMER ASSOC ADVANCEMENT SCIENCE
Citation
SCIENCE ADVANCES, v.4, no.6
Abstract
Highly active and durable bifunctional oxygen electrocatalysts have been of pivotal importance for renewable energy conversion and storage devices, such as unitized regenerative fuel cells and metal-air batteries. Perovskite-based oxygen electrocatalysts have emerged as promising nonprecious metal bifunctional electrocatalysts, yet their catalytic activity and stability still remain to be improved. We report a high-performance oxygen electrocatalyst based on a triple perovskite, Nd1.5Ba1.5CoFeMnO9-delta (NBCFM), which shows superior activity and durability for oxygen electrode reactions to single and double perovskites. When hybridized with nitrogen-doped reduced graphene oxide (N-rGO), the resulting NBCFM/N-rGO catalyst shows further boosted bifunctional oxygen electrode activity (0.698 V), which surpasses that of Pt/C (0.801 V) and Ir/C (0.769 V) catalysts and which, among the perovskite-based electrocatalysts, is the best activity reported to date. The superior catalytic performances of NBCFM could be correlated to its oxygen defect rich structure, lower charge transfer resistance, and smaller hybridization strength between O 2p and Co 3d orbitals.
Keywords
METAL-AIR BATTERIES; EVOLUTION REACTION; ENHANCED ACTIVITY; OXIDE CATALYSTS; ALKALINE MEDIA; FUEL-CELLS; REDUCTION; GRAPHENE; TEMPERATURE; HYBRID; METAL-AIR BATTERIES; EVOLUTION REACTION; ENHANCED ACTIVITY; OXIDE CATALYSTS; ALKALINE MEDIA; FUEL-CELLS; REDUCTION; GRAPHENE; TEMPERATURE; HYBRID; triple perovskites; atom catalyst; energy storage; fuel cell; OER
ISSN
2375-2548
URI
https://pubs.kist.re.kr/handle/201004/121308
DOI
10.1126/sciadv.aap9360
Appears in Collections:
KIST Article > 2018
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