Architecture of CoNx single clusters on nanocarbon as excellent oxygen reduction catalysts with high-efficient atomic utilization

A new strategy to fabricate CoNx single cluster supported nanocarbon catalysts (C/P/2Co600) with enhanced atomic utilization towards the oxygen reduction reaction (ORR) is reported. N-Coordination protection and low-temperature pyrolysis are the two key factors for the formation of CoNx single clust...

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Veröffentlicht in:	Nanoscale 2017-06, Vol.9 (24), p.8341-8348
Hauptverfasser:	He, Ting, Xue, Hui, Wang, Xiaojuan, He, Shuanghua, Lei, Yulai, Zhang, Yuyuan, Shen, Rujuan, Zhang, Yi, Xiang, Juan
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Sprache:	eng
Schlagworte:	Atomic properties Catalysis Catalysts Clusters Nanostructure Oxygen Reduction Utilization
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creator	He, Ting Xue, Hui Wang, Xiaojuan He, Shuanghua Lei, Yulai Zhang, Yuyuan Shen, Rujuan Zhang, Yi Xiang, Juan
description	A new strategy to fabricate CoNx single cluster supported nanocarbon catalysts (C/P/2Co600) with enhanced atomic utilization towards the oxygen reduction reaction (ORR) is reported. N-Coordination protection and low-temperature pyrolysis are the two key factors for the formation of CoNx single clusters on nanocarbon supports. Morphological and structural identification confirmed the simultaneous anchoring of homo-dispersed CoNx single clusters and N-doping on the nanocarbon under relatively mild thermal treatment conditions. Expectedly, the obtained single cluster catalyst with a trace amount of metal atoms exhibited excellent ORR performance including a positive half-wave potential (0.846 V), a high mass activity (0.98 A mgCo-1, ampere per milligram of cobalt) and outstanding chemical durability after 8000 potential cycles. We believe that our findings provide a new route for the rational design of low-cost and highly active ORR catalytic materials.
doi_str_mv	10.1039/c7nr02165h
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title	Architecture of CoNx single clusters on nanocarbon as excellent oxygen reduction catalysts with high-efficient atomic utilization
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