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Yongze Liu
Researcher at Beijing Forestry University
Publications - 86
Citations - 3109
Yongze Liu is an academic researcher from Beijing Forestry University. The author has contributed to research in topics: Chemistry & Medicine. The author has an hindex of 19, co-authored 57 publications receiving 1616 citations. Previous affiliations of Yongze Liu include Harbin Institute of Technology.
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Production of Sulfate Radical and Hydroxyl Radical by Reaction of Ozone with Peroxymonosulfate: A Novel Advanced Oxidation Process
TL;DR: It is demonstrated that the reaction between the anion of PMS and O3 is primarily responsible for driving O3 consumption with a measured second order rate constant of (2.12 ± 0.03) × 10(4) M(-1) s(-1).
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Simulation and comparative study on the oxidation kinetics of atrazine by UV/H2O2, UV/HSO5− and UV/S2O82−
TL;DR: This study comparatively investigated atrazine (ATZ) degradation by irradiation at the wavelength of 254 nm in the presence of peroxides at various initial ATZ concentrations and oxidant dosages to improve the understanding of the effects of water constituents for ATZ degradation in the UV-based oxidation processes.
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Carbonized polyaniline activated peroxymonosulfate (PMS) for phenol degradation: Role of PMS adsorption and singlet oxygen generation
TL;DR: In this article, high-efficient N-doped carbon materials were prepared by direct carbonization of polyaniline (PANI) at 700 °C-1000 °C.
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Oxidation of the odorous compound 2,4,6-trichloroanisole by UV activated persulfate: Kinetics, products, and pathways
Congwei Luo,Jin Jiang,Jun Ma,Su-Yan Pang,Yongze Liu,Yang Song,Chaoting Guan,Juan Li,Yixin Jin,Daoji Wu +9 more
TL;DR: The transformation efficiency and products of an odorous compound 2,4,6-trichloroanisole (TCA) at the wavelength of 254 nm in the presence of persulfate were investigated for the first time and a tentative pathway was proposed, where the initial one-electron oxidation of TCA by SO4(-) and further reactions of the formed cation intermediate TCA were involved.
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Effects of water matrices on the degradation of naproxen by reactive radicals in the UV/peracetic acid process.
TL;DR: The results showed that RC• contributed 60.8% and •OH contributed 39.2% to NAP degradation in pure water by a competition method, and suggested that Cl- could react with RC• to produce Cl•, which could further convert into HOCl•-, and then excess •OH was formed.