Photocatalytic simultaneous removal of nitrite and ammonia via zinc ferrite/N-doped graphene catalyst
Vol 4, Issue 2, 2021
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1. Yang J, Xu K. Microbiology in sewage treatment (in Chinese). Science and Technology & Innovation 2017; (12): 71.
2. Zhang L, Xu J, Qiao X. New process for high-concentration AN wastewater treatment (in Chinese). Process 2017; (10): 20-22.
3. Wei N, Zhao S, Sun Y, et al. Strategies for dosing carbon source for enhanced nitrogen removal in wastewater treatment plant. China Water & Wastewater 2017; 33(1): 71-75.
4. Liu S, Zhu X, Zhou Y, et al. Smart photocatalytic removal of ammonia through molecular recognition of zinc ferrite/reduced graphene oxide hybrid catalyst under visible-light irradiation. Catalysis Science & Technology 2017; 7(15): 3210-3219.
5. Zhang H, Liu S. Catalytic properties of graphene/molybdenum sulfide under near-infrared light irradiation. Journal of Suzhou University of Science and Technology (Natural Science Edition) 2017; 34(4): 37-41, 53.
6. Xue T, Zhang H, Liu S. Synthesis of reduced graphene oxide-cerium oxide hybrid catalyst and the degradation of ammonia under visible light irradiation. Journal of Functional Materials 2017; 48(3): 3218-3222.
7. Zou C, Liu S, Shen Z, et al. Efficient removal of ammonia with a novel graphene-supported BiFeO3 as a reusable photocatalyst under visible light. Chinese Journal of Catalysis 2017; 38(1): 20-28.
8. Xiao B, Liu S. Photocatalytic oxidation of ammonia via an activated carbon-nickel ferrite hybrid catalyst under visible light irradiation. Acta Physico-Chimica Sinica 2014; 30(9): 1697-1705.
9. Kominami H, Kitsui K, Ishiyama Y, et al. Simultaneous removal of NN and ammonia as zinitrogen in aqueous suspensions of a titanium (IV) oxide photocatalyst under reagent-free and metal-free conditions at room temperature. RSC Advances 2014; 46(7): 51576-51579.
10. Liu S, Xiao B, Feng L, et al. Graphene oxide enhances the Fenton-like photocatalytic activity of nickel ferrite for degradation of dyes under visible light irradiation. Carbon 2013; 64(9): 197-206.
11. Wang Z, Schiferl D, Zhao Y, et al. High pressure Raman spectroscopy of spinel-type ferrite ZnFe2O4. Journal of Physics and Chemistry of Solids 2003; 64(12): 2517-2523.
12. Yang C, Li Z, Yu L, et al. Mesoporous zinc ferrite microsphere-decorated graphene Oxide as a flame retardant additive: preparation,characterization, and flame retardance evaluation. Industrial & Engineering Chemistry Research 2017; 56(27): 7720-7729.
13. Akhavan O. The effect of heat treatment on formation of graphene thin films from graphene oxide nanosheets. Carbon 2010; 48(2): 509-519.
DOI: https://doi.org/10.24294/ace.v4i2.1344
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