Atomic Fe-Zn dual-metal sites for high-efficiency pH-universal oxygen reduction catalysis

Jie Xu, Shuhua Lai, Defeng Qi, Min Hu, Xianyun Peng, Yifan Liu, Wei Liu, Guangzhi Hu, Heng Xu, Fan Li, Chao Li, Jia He, Longchao Zhuo, Jiaqiang Sun, Yuan Qiu, Shusheng Zhang, Jun Luo, Xijun Liu

Research output: Contribution to journalArticlepeer-review

164 Scopus citations

Abstract

An effective electrocatalyst being highly active in all pH range for oxygen reduction reaction (ORR) is crucial for energy conversion and storage devices. However, most of the high-efficiency ORR catalysis was reported in alkaline conditions. Herein, we demonstrated the preparation of atomically dispersed Fe-Zn pairs anchored on porous N-doped carbon frameworks (Fe-Zn-SA/NC), which works efficiently as ORR catalyst in the whole pH range. It achieves high half-wave potentials of 0.78, 0.85 and 0.72 V in 0.1 M HClO4, 0.1 M KOH and 0.1 M phosphate buffer saline (PBS) solutions, respectively, as well as respectable stability. The performances are even comparable to Pt/C. Furthermore, when assembled into a Zn-air battery, the high power density of 167.2 mWcm−2 and 120 h durability reveal the feasibility of Fe-Zn-SA/NC in real energy-related devices. Theoretical calculations demonstrate that the superior catalytic activity of Fe-Zn-SA/NC can be contributed to the lower energy barriers of ORR at the Fe-Zn-N6 centers. This work demonstrates the potential of Fe-Zn pairs as alternatives to the Pt catalysts for efficient catalytic ORR and provides new insights of dual-atom catalysts for other energy conversion related catalytic reactions. [Figure not available: see fulltext.]

Original languageEnglish
Pages (from-to)1374-1381
Number of pages8
JournalNano Research
Volume14
Issue number5
DOIs
StatePublished - May 2021
Externally publishedYes

Funding

This work was financially supported by National Key R&D Program of China (No. 2017YFA0700104), the National Natural Science Foundation of China (Nos. 22075211, 21601136, 51971157, 51761165012, and 62005173), Project funded by China Postdoctoral Science Foundation (No. 2020TQ0201), Tianjin Science Fund for Distinguished Young Scholars (No. 19JCJQJC61800). The authors also acknowledge National Supercomputing Center in Shenzhen for providing the computational resources and materials studio (version 7.0, DMol). 3

FundersFunder number
Tianjin Science Fund for Distinguished Young Scholars19JCJQJC61800
National Natural Science Foundation of China21601136, 62005173, 51761165012, 51971157, 22075211
China Postdoctoral Science Foundation2020TQ0201
National Key Research and Development Program of China2017YFA0700104

    Keywords

    • Fe-Zn atomic pairs
    • Zn-air battery
    • electrocatalysis
    • oxygen reduction reaction
    • pH-universal

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