Atomically dispersed manganese catalysts for oxygen reduction in proton-exchange membrane fuel cells

质子交换膜燃料电池 催化作用 铂金 碳纤维 色散(光学) 材料科学 金属 化学 可逆氢电极 氧气 无机化学 膜电极组件 化学工程 电解质 工作电极 电极 复合数 电化学 有机化学 工程类 物理 复合材料 物理化学 光学
作者
Jiazhan Li,Mengjie Chen,David A. Cullen,Sooyeon Hwang,Maoyu Wang,Boyang Li,Kexi Liu,S. Karakalos,Marcos Lucero,Hanguang Zhang,Chao Lei,Hui Xu,George E. Sterbinsky,Zhenxing Feng,Dong Su,Karren L. More,Guofeng Wang,Zhen‐Bo Wang,Gang Wu
出处
期刊:Nature Catalysis [Nature Portfolio]
卷期号:1 (12): 935-945 被引量:1477
标识
DOI:10.1038/s41929-018-0164-8
摘要

Platinum group metal (PGM)-free catalysts that are also iron free are highly desirable for the oxygen reduction reaction (ORR) in proton-exchange membrane fuel cells, as they avoid possible Fenton reactions. Here we report an efficient ORR catalyst that consists of atomically dispersed nitrogen-coordinated single Mn sites on partially graphitic carbon (Mn-N-C). Evidence for the embedding of the atomically dispersed MnN4 moieties within the carbon surface-exposed basal planes was established by X-ray absorption spectroscopy and their dispersion was confirmed by aberration-corrected electron microscopy with atomic resolution. The Mn-N-C catalyst exhibited a half-wave potential of 0.80 V versus the reversible hydrogen electrode, approaching that of Fe-N-C catalysts, along with significantly enhanced stability in acidic media. The encouraging performance of the Mn-N-C catalyst as a PGM-free cathode was demonstrated in fuel cell tests. First-principles calculations further support the MnN4 sites as the origin of the ORR activity via a 4e− pathway in acidic media. Platinum group metal- and iron-free catalysts are highly desirable for the oxygen reduction reaction in proton-exchange membrane fuel cells. Now, Wu and co-workers show a carbon catalyst with atomically dispersed single Mn sites as an efficient catalyst with enhanced stability in acidic media.
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