Facet Engineering and Pore Design Boost Dynamic Fe Exchange in Oxygen Evolution Catalysis to Break the Activity–Stability Trade-Off
Yong Wang(University of Science and Technology Beijing), Junmin Xue(National University of Singapore), Juping Tu(University of Science and Technology Beijing), Baorui Jia(Cornell University), Mingli Qin(Advanced Materials and Technologies (Slovenia)), Yongzhi Zhao(University of Science and Technology Beijing), Aimin Chu(Hunan University of Science and Technology), Yunpu Qin(University of Science and Technology Beijing), Luan Liu(University of Science and Technology Beijing), Haoyang Wu(University of Science and Technology Beijing), Sijia Liu(Sichuan University), Yadong Liu(University of Science and Technology Beijing), Jianfang Liu(University of Science and Technology Beijing), Deyin Zhang(University of Science and Technology Beijing), Xuanhui Qu(University of Science and Technology Beijing), Wanjun Qin(University of Science and Technology Beijing)
Cited by 69
Related Papers
Construction of Catalytic Covalent Organic Frameworks with Redox‐Active Sites for the Oxygen Reduction and the Oxygen Evolution Reaction
|Angewandte Chemie International Edition|2022|177
Fabrication, mechanical properties and electrical conductivity of Al2O3 reinforced Cu/CNTs composites
|Journal of Alloys and Compounds|2018|125
Room‐Temperature Suzuki–Miyaura Coupling of Heteroaryl Chlorides and Tosylates
|European Journal of Organic Chemistry|2012|118
S and O Co-Coordinated Mo Single Sites in Hierarchically Porous Tubes from Sulfur–Enamine Copolymerization for Oxygen Reduction and Evolution
|Journal of the American Chemical Society|2022|116
Effect of Sn addition on the high-temperature oxidation behavior of high Nb-containing TiAl alloys
|Corrosion Science|2020|114