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IntroductionDr. Xiang Hu received his Ph.D. degree in Environmental Engineering from Harbin Institute of Technology (HIT), Harbin, China in 1999. Currently, Dr. Xiang Hu is Full Professor in the College of Chemical Engineering, Beijing University of Chemical Technology. To date, he has published more than 100 peer-reviewed papers, and is a named inventor of 7 issued Chinese patents. He has also served as a peer-reviewer in more than ten international journals. He once received financial supports fromthe National Water Pollution Control and Treatment Major Project, National Key Technology R&D Program, and the National Natural Science Foundation of China. His research is focused on the environmental functional materials for water/wastewater treatment. Furthermore, his recent focus is on design and fabrication of heterogeneous carbon-based catalysis for electrochemical, and advanced oxidation processes for removal of emerging organic pollution from aqueous solution. EducationWork ExperienceSocial PositionSocial ActivitiesResearchDesign and fabrication of heterogeneous carbon-based catalysis for electrochemical, adsorptive and advanced oxidation processes for removal of emerging organic pollution from aqueous solution; New Biological technology. TeachingWater Pollution Control Engineering; Principles for Water & Wastewater Treatment PostgraduatesFundingVertical ProjectHorizontal ProjectPublicationsMain Related Publication 1. Tengru Xie, Luwei Wang, Hexiang Wang, Chuan Cao, Chenliu Tang, Xiang Hu*. In-situ electrodeposition of Co/Ce-MOF-derived carbon composites as anode for electrochemical degradation of ceftazidime. Separation and Purification Technology, 2024, 330: 125231. 2. Hexiang Wang, Chenliu Tang, Luwei Wang, Zhirong Sun, Xiang Hu*. MOF-derived Co/Fe@NPC-500 with large amounts of low-valent metals as an electro-Fenton cathode for efficient degradation of ceftazidime. Applied Catalysis B: Environmental, 2023, 333:122755. 3. Chenxin Su, Muhan Jia, Xiaofei Xue, Chenliu Tang, Lingyun Li, Xiang Hu*. Core-shell magnetic CFO@COF composites toward peroxymonosulfate activation for degradation of sulfamethoxazole from aqueous solution: A comparative study and mechanistic consideration. Chemosphere, 2023, 311: 137159. 4. Muhan Jia, Yan Fan, Zhirong Sun, Xiang Hu*. ZrO2 supported perovskite activation of peroxymonosulfate for sulfamethoxazole removal from aqueous solution. Chemosphere, 2022, 298: 134339. 5. Yan Fan, Yanru Liu, Xiang Hu*, Zhirong Sun. Preparation of metal organic framework derived materials CoFe2O4@NC and its application for degradation of norfloxacin from aqueous solutions by activated peroxymonosulfate. Chemosphere, 2021, 275: 130059. 6. Xiang Hu*, Tingting Sun, Lanjun Jia, Jie Wei, Zhirong Sun. Preparation of metal-organic framework based carbon materials and its application to adsorptive removal of cefepime from aqueous solution. Journal of Hazardous Materials, 2020, 390: 122190. 7. Hanxiao Duan, Xiang Hu*, Zhirong Sun. Magnetic zeolite imidazole framework material-8 as an effective and recyclable adsorbent for removal of ceftazidime from aqueous solution. Journal of Hazardous Materials, 2020, 384: 121406. 8. Pingzhou Duan, Shihen Gao, Jiawei Lei, Xiang Li, Xiang Hu*. Electrochemical oxidation of ceftazidime with graphite/CNT-Ce/PbO2-Ce anode: Parameter optimization, toxicity analysis and degradation pathway. Environmental Pollution, 2020, 263(B): 114436. 9. Xiang Hu*, Lanjun Jia, Jie Cheng, Zhirong Sun*. Magnetic ordered mesoporous carbon materials for adsorption of minocycline from aqueous solution: Preparation, characterization and adsorption mechanism. Journal of Hazardous Materials, 2019, 362: 1-8. 10. Weijun Liu, Pingzhou Duan, Xiang Hu*, Jianjun Gao, Fentao Zhou. Fabrication of Efficient Nano-MnOx/ACF Particle Electrodes and their Application in the Electrooxidation of m-Cresol in the 3-D Electrode System. Industrial & Engineering Chemistry Research, 2019, 58(48) :22114-22123. 11. Zhao Cheng, Xiang Hu*. Performance and degradation mechanism of a sequencing batch biofilm reactor combined with an electrochemical process for the removal of low concentrations of cefuroxime. Chemical Engineering Journal, 2017, 320: 93-103. AwardsPatentHonor RewardAdmissions Information |