Microporous Framework Induced Synthesis of Single-Atom Dispersed Fe-N-C Acidic ORR Catalyst and Its in Situ Reduced Fe-N<sub>4</sub> Active Site Identification Revealed by X-ray Absorption Spectroscopy
Meiling Xiao(Chinese Academy of Sciences), Wei Xing(Chinese Academy of Sciences), Qingying Jia(Northeastern University), Jingkun Li(Centre National de la Recherche Scientifique), Junjie Ge(Chinese Academy of Sciences), Jianbing Zhu(Chinese Academy of Sciences), Changpeng Liu(Chinese Academy of Sciences), Yang Hou(Zhejiang University), Sanjeev Mukerjee(Northeastern University), Xin Deng(Zhejiang University), Zheng Jiang(Chinese Academy of Medical Sciences & Peking Union Medical College), Dangsheng Su(Northwestern Polytechnical University), Qinggang He(Zhejiang University), Ruoou Yang(Chinese Academy of Sciences), Liang Ma(China University of Geosciences)
Cited by 530
Related Papers
NiSe Nanowire Film Supported on Nickel Foam: An Efficient and Stable 3D Bifunctional Electrode for Full Water Splitting
|Angewandte Chemie International Edition|2015|1.4k
Heterogeneous nanocarbon materials for oxygen reduction reaction
|Energy & Environmental Science|2013|1k
Iridium single-atom catalyst on nitrogen-doped carbon for formic acid oxidation synthesized using a general host–guest strategy
|Nature Chemistry|2020|701
Identification of durable and non-durable FeNx sites in Fe–N–C materials for proton exchange membrane fuel cells
|Nature Catalysis|2020|700
Highly active oxygen reduction non-platinum group metal electrocatalyst without direct metal–nitrogen coordination
|Nature Communications|2015|661