Y
Yingshi Zhu
Researcher at Harbin Institute of Technology
Publications - 16
Citations - 555
Yingshi Zhu is an academic researcher from Harbin Institute of Technology. The author has contributed to research in topics: Cathode & Adsorption. The author has an hindex of 9, co-authored 16 publications receiving 244 citations. Previous affiliations of Yingshi Zhu include Jianghan University.
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Journal ArticleDOI
A biochar modified nickel-foam cathode with iron-foam catalyst in electro-Fenton for sulfamerazine degradation
Fengxia Deng,Fengxia Deng,Li Sixing,Minghua Zhou,Yingshi Zhu,Shan Qiu,Kehong Li,Fang Ma,Jizhou Jiang,Jizhou Jiang +9 more
TL;DR: In this paper, a nickel-foam cathode modified by a self-nitrogen-doped biochar derived from waste giant reed was synthesized, and the fabricated cathode (B@Ni-F) proved to be with high oxygen reaction reactive (ORR) reactivity and H2O2 selectivity.
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Waste-wood-derived biochar cathode and its application in electro-Fenton for sulfathiazole treatment at alkaline pH with pyrophosphate electrolyte.
Fengxia Deng,Hugo Olvera-Vargas,Orlando Garcia-Rodriguez,Yingshi Zhu,Jizhou Jiang,Jizhou Jiang,Shan Qiu,Jixian Yang +7 more
TL;DR: For the first time, a biomass-derived porous carbon cathode (WDC) was fabricated via a facile one-step pyrolysis of recovered wood-waste without any post-treatment, and it was found that PP decreased the decomposition rate of H 2O2 in solution as compared to conventional electrolyte, which resulted in higher H2O2 accumulation.
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Enhanced electro-Fenton degradation of sulfonamides using the N, S co-doped cathode: Mechanism for H2O2 formation and pollutants decay.
TL;DR: EF with N, S co-doped cathode provides a promising process for antibiotics wastewater treatment and toxicity was evaluated by ecological structure-activity relationship (ECOSAR) program, showing that toxic intermediates generated were reduced or even disappeared.
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Degradation of sulfathiazole by electro-Fenton using a nitrogen-doped cathode and a BDD anode: Insight into the H2O2 generation and radical oxidation
TL;DR: A new strategy for improving the ORR process and analyzing the generation and conversion of reactive oxygen species in the EF process is provided.
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Enhanced degradation of sulfathiazole by electro-Fenton process using a novel carbon nitride modified electrode
TL;DR: In this paper, a carbon nitride graphite-based gas diffusion electrode (g-C3N4@GDE) was fabricated and then was used as a cathode in electro-Fenton (EF) to treat sulfathiazole (STZ, a target organic pollutant) at the very first time.