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Name:Zhaoyang Fan

Birthday: 1990-12

Professional Title:lecturer

Department:applied chemistry

Education:doctor

Dr. Supervisor/Ms. Supervisor:Ms. Supervisor

Address:chemical building

Email:fanzhaoyang@tyut.edu.cn

Biography

Dr. Fan got his doctoral degree from Xi’an Jiaotong University in 2019.07. He dedicated to the fundamental study in the field of atmospheric pollution control and environmental catalysis. Especially, he pays much attention to 1) Design and fabrication of low temperature de-NOx catalysts for NOx abatement from stationary sources; 2) Establishing the relationship between the catalytic performance and physiochemical performance of the catalysts; 3) Understanding the reaction mechanism; 4) Enhancing the SO2 resistance of the low temperature de-NOx catalysts et al. He has been served as the guest editor of Catalysts journal as well as reviewers for several international journals including Environmental Science & Technology, Catalysis Science & Technology, Chemical Physics Impact, Journal of Rare Earths, Journal of Environmental Chemical Engineering, Catalysts, Catalysis Communications, Environmental Technology, Nanomaterials, Processes, Energies, Separations et al.

Education and Teaching

Undergraduate courses: General Chemistry, Inorganic Chemistry

Scientific Research

1. Research Interests

Low temperature NO_x abatement, SO₂ resistance, ammonium bisulfate resistance

2. Paper

[1] Fan ZY, Shi JW*, Niu CH, et al. The insight into the role of Al₂O₃ in promoting the SO₂ tolerance of MnO_x for low-temperature selective catalytic reduction of NO_x with NH₃. Chemical Engineering Journal, 2020, 398: 125572.

[2] Fan ZY,¹ Wang ZY,¹ Shi JW*, et al. Charge-redistribution-induced new active sites on (001) facets of α-Mn₂O₃ for significantly enhanced selective catalytic reduction of NO_x by NH₃. Journal of Catalysis, 2019, 370: 30-37.

[3] Fan ZY, Shi JW*, Gao C, et al. Gd-modified MnO_x for the selective catalytic reduction of NO by NH₃: The promoting effect of Gd on the catalytic performance and sulfur resistance. Chemical Engineering Journal, 2018, 348: 820-830.

[4] Fan ZY, Shi JW*, Gao C, et al. Rationally designed porous MnO_x-FeO_x nanoneedles for low-temperature selective catalytic reduction of NO_x by NH₃. ACS Applied Materials & Interfaces, 2017, 9: 16117-16127.

[5] Fan ZY, Liang J, Yu W, et al. Ultrathin NiO nanosheets anchored on a highly ordered nanostructured carbon as an enhanced anode material for lithium-ion batteries. Nano Energy, 2015, 16: 152-162.

3. Patent

Shujiang Ding, Zhaoyang Fan, Preparation method of metal oxygen/sulfide and ordered mesoporous carbon composite materials for energy storage. China, 2017-01, CN103943826A.

4. Projects

[1] National Natural Science Foundation of China (22206147), Study on the fabrication of layered FeV-based low-temperature de-NO_x catalyst with high sulfur resistance and its ammonium bisulfate disintegration-elimination mechanism, 2023/01-2025/12, Project Leader.

[2] Natural Science Foundation of Shanxi Province (20210302124638), Study on the influence of hydrogen bonding to the low temperature ammonium bisulfate decomposition behavior and mechanism over FeV-based de-NO_x catalysts, 2022/01-2024/12, Project Leader.

[3] National Natural Science Foundation of China (22272116), Construction of hydrotalcite-based Ag-CuMgAlOx-CNTs catalyst and research on the mechanism of enhanced performance on removing slip ammonia at low temperatures, 2023/01-2026/12, Project Participant.