F
Feng Wang
Researcher at Beijing University of Chemical Technology
Publications - 198
Citations - 8526
Feng Wang is an academic researcher from Beijing University of Chemical Technology. The author has contributed to research in topics: Catalysis & Electrocatalyst. The author has an hindex of 40, co-authored 196 publications receiving 5809 citations.
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Efficient Oxygen Reduction Reaction (ORR) Catalysts Based on Single Iron Atoms Dispersed on a Hierarchically Structured Porous Carbon Framework.
TL;DR: In alkaline media, the SA-Fe-HPC catalysts outperform the commercial Pt/C electrode in ORR activity, fuel selectivity, and long-term stability (1 mV negative shift after 3000 potential cycles), and are promising non-platinum-group metal ORR catalysts for fuel-cell technologies.
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Biomass-derived mesopore-dominant porous carbons with large specific surface area and high defect density as high performance electrode materials for Li-ion batteries and supercapacitors
TL;DR: In this paper, high-defect porous carbons with high specific surface area and high defect density have been prepared through direct carbonization of cattle bones without any additional activators and templates.
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Metal–Organic Framework‐Derived Co 2 P Nanoparticle/Multi‐Doped Porous Carbon as a Trifunctional Electrocatalyst
Haitao Liu,Jingyu Guan,Shaoxuan Yang,Yihuan Yu,Rong Shao,Zhengping Zhang,Meiling Dou,Feng Wang,Qiang Xu,Qiang Xu +9 more
TL;DR: A highly active and very stable trifunctional electrocatalyst composed of Co2 P embedded in Co, N, and P multi-doped carbon has been synthesized using zeolitic imidazolate frameworks as precursors, representing a breakthrough in improving the catalytic performance of non-precious metal electrocatalysts for OER, HER, and ORR.
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Enzymatic hydrolysis lignin derived hierarchical porous carbon for supercapacitors in ionic liquids with high power and energy densities
TL;DR: In this paper, a symmetric supercapacitor in an ionic liquid electrolyte system exhibits a superior energy density of 46.8 W h kg−1 and a value of 22.9 W hkg−1.