Universal Approach to Fabricating Graphene-Supported Single-Atom Catalysts from Doped ZnO Solid Solutions
Jiashen Meng(Wuhan University of Technology), Jiantao Li(Wuhan University of Technology), Jinshuai Liu(The University of Melbourne), Xingcai Zhang(Harvard University), Gengping Jiang(Wuhan University of Science and Technology), Lu Ma(Argonne National Laboratory), Zhi‐Yi Hu(Wuhan University of Technology), Shibo Xi(Agency for Science, Technology and Research), Yunlong Zhao(University of Surrey), Mengyu Yan(Wuhan University of Technology), Peiyao Wang(The University of Melbourne), Xiong Liu(Wuhan University of Technology), Qidong Li(Wuhan University of Technology), Jefferson Zhe Liu(The University of Melbourne), Tianpin Wu(Argonne National Laboratory), Liqiang Mai(Wuhan University of Technology)
Cited by 94Open Access
Abstract
). Both experimental analyses and theoretical calculations reveal the oxygen reduction activity sequence of M-N-Grs. Additionally, the superior performance in Fe-N-Gr is mainly attributed to its unique electron structure, rich exposed active sites, and robust hollow framework. This synthesis strategy will stimulate the rapid development of SACs for diverse energy-related fields.
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