Ligang Feng
Yangzhou University
161 Papers
403 Citations
Ligang Feng is an academic researcher from Yangzhou University. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 40, co-authored 115 publications. Previous affiliations of Ligang Feng include Chalmers University of Technology & Chinese Academy of Sciences.
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Papers
Amorphous FeCoNi-S as efficient bifunctional electrocatalysts for overall water splitting reaction
TL;DR: In this paper , an amorphous FeCoNi-S electrocatalyst was developed using thioacetamide for the sulfuration of FeCoN hydroxide during the hydrothermal process.
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Round-the-clock bifunctional honeycomb-like nitrogen-doped carbon-decorated Co2P/Mo2C-heterojunction electrocatalyst for direct water splitting with 18.1% STH efficiency
Pengliang Sun,Yingtang Zhou,Hongyi Li,Huafan Zhang,Ligang Feng,Qiue Cao,Shi-Xi Liu,Thomas Wågberg,Guangzhi Hu +8 more
TL;DR: In this paper , a honeycomb porous Co2P/Mo2 catalyst was obtained for the first time by cooperative coupling of heteroatoms and a heterojunction interface engineering strategy in a limited space.
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Co single atoms and Co nanoparticle relay electrocatalyst for rechargeable zinc air batteries
Jiuxiao Sun,Pei Leng,Yuhua Xie,Xinxin Yu,Konggang Qu,Ligang Feng,Haifeng Bao,Fang Luo,Zehui Yang +8 more
TL;DR: In this paper , the authors reported nitrogen doped carbon nano/microtubes confined metallic cobalt nanoparticles and single atoms as robust oxygen electrocatalyst for rechargeable ZABs.
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Electrochemical oxygen evolution reaction catalyzed by a novel nickel-cobalt-fluoride catalyst.
TL;DR: A nanostructured nickel and cobalt fluoride catalyst is constructed by a facile strategy carried out in a mixture of ionic liquids under microwave irradiation followed by low temperature thermal-annealing and is a novel and robust material among the non-noble metal catalysts towards the oxygen evolution reaction in water electrolysis.
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Synergistically boosting the oxygen evolution reaction of an Fe-MOF via Ni doping and fluorination
TL;DR: An efficient approach to boost the oxygen evolution activity of Fe-MOF nanorods was demonstrated via a synergistic strategy of Ni doping and fluorination.
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