T
Tao Zhang
Researcher at Harbin Institute of Technology
Publications - 153
Citations - 6512
Tao Zhang is an academic researcher from Harbin Institute of Technology. The author has contributed to research in topics: Catalysis & Heat pipe. The author has an hindex of 31, co-authored 146 publications receiving 4252 citations. Previous affiliations of Tao Zhang include University of Nottingham & King Abdullah University of Science and Technology.
Papers
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Production of Sulfate Radical from Peroxymonosulfate Induced by a Magnetically Separable CuFe2O4 Spinel in Water: Efficiency, Stability, and Mechanism
TL;DR: In situ characterization of the oxide surface with ATR-FTIR and Raman during the PMS decomposition suggested that surface Cu(II)- Cu(III)-Cu(II) redox cycle was responsible for the efficient sulfate radical generation from PMS.
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Efficient peroxydisulfate activation process not relying on sulfate radical generation for water pollutant degradation.
TL;DR: It is reported that copper oxide (CuO) can efficiently activate PDS under mild conditions without producing sulfate radicals and shows significant advantages over sulfate radical oxidation by achieving much higher 2,4-DCP degradation capacity and avoiding the formation of highly chlorinated degradation products.
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Surface hydroxyl groups of synthetic α-FeOOH in promoting OH generation from aqueous ozone: Property and activity relationship
TL;DR: In this paper, the authors investigated the relationship between the surface hydroxyl groups of hydroxilated synthetic α-FeOOH and their catalytic activity in promoting hydroxym radical (OH) generation from aqueous ozone.
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Trace Cupric Species Triggered Decomposition of Peroxymonosulfate and Degradation of Organic Pollutants: Cu(III) Being the Primary and Selective Intermediate Oxidant
Lihong Wang,Lihong Wang,Haodan Xu,Haodan Xu,Ning Jiang,Zimeng Wang,Jin Jiang,Jin Jiang,Tao Zhang +8 more
TL;DR: It is reported in this research that trace cupric species (Cu(II) in several μM) can efficiently trigger peroxymonosulfate (PMS) oxidation of various organic pollutants under slightly alkaline conditions.
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Effect of pH on MnOx/GAC catalyzed ozonation for degradation of nitrobenzene.
TL;DR: It was found that in MnO(x)/GAC catalytic ozonation, the degradation efficiency of nitrobenzene was higher under low pH conditions than under high pH conditions, and higher pH condition favored ozone decomposition.