8 Papers
8 Citations
Yi Chen is an academic researcher from Shanghai University of Electric Power. The author has contributed to research in topics: Catalysis & Chemistry. The author has an hindex of 2, co-authored 4 publications.
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Papers
The enhanced catalytic degradation of sulfamethoxazole over Fe@nitrogen-doped carbon-supported nanocomposite: Insight into the mechanism
Jin Sheng He,Jiaying Huang,Zhen Li,Yi Chen,Ruidian Su,Xiaoyu Ni,Yanwei Li,Xing Xu,Weizhi Zhou,Baoyu Gao,Qiang Liu +10 more
TL;DR: An environmentally friendly Fe@nitrogen-doped carbon nanocomposite catalyst (Fe@N-CNs) was prepared via a facile and economical process using carboxymethyl chitosan (CMCs) hydrogel as a template to achieve Fe-anchoring and N-doping simultaneously for peroxymonosulfate (PMS) activation to efficiently degrade sulfamethoxazole (SMX) as mentioned in this paper .
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Tunable Surface-Enhanced Infrared Absorption on Au Nanofilms on Si Fabricated by Self-Assembly and Growth of Colloidal Particles
TL;DR: In situ ATR-FTIR measurement of p-nitrobenzoic acid adsorption demonstrates that the as-grown Au film yields rather promising surface enhancement as well, and the severe aggregation of Au nanoparticles may cause the bipolar band shape.
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Folic Acid Coordinated Cu-Co Site N-Doped Carbon Nanosheets for Oxygen Reduction Reaction.
TL;DR: In this paper, the authors used folic acid (FA) as a metal complex ligand and synthesized porous carbon nanosheets (Cu-CoNCNs) by the solvothermal method, the molten salt template-assisted calcination method, and the chemical etching method.
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In situ synthesis of Fe-N co-doped carbonaceous nanocomposites using biogas residue as an effective persulfate activator for remediation of aged petroleum contaminated soils.
TL;DR: In this article , Fe/N co-doped carbonaceous nanocomposites (Fe-N @ CN) were developed from biogas residue for the remediation of petroleum-contaminated soil.
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Highly accessible sites of Fe-N on biomass-derived N, P co-doped hierarchical porous carbon for oxygen reduction reaction
TL;DR: In this article, the pyrolysis strategy is demonstrated in the synthesis of iron-based catalysts co-doped with nitrogen and biomass-derived phosphorus (denoted as N, P-Fe/C), and the pore size of the catalyst is mostly distributed at 1 nm or 50 nm, respectively.
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