师资力量
姓名:毛旭辉 (Xuhui Mao) 出生日期:1976-08
联系电话:027-68775799 E_MAIL:clab@whu.edu.cn
研究方向:环境工程(Environmental Engineering)
系科:
硕/博士生导师: 博士生导师  
职称: 教授 职级:

教育与研究经历
-- Bachelor & PhD, Environmental Science and Engineering, 1995-2007,Wuhan University
--Postdoctoral associate, Civil and environmental Engineering 06/2010 –04/2012, MIT, Northeastern University (NEU).

研究领域与兴趣
-- Soil and groundwater remediation (土壤及地下水的修复)。
-- Water treatment (physicochemical, electrochemical, biological,etc.) (物理化学、电化学水处理技术)。
-- Materials for energy and environmental applications(环境及能源新材料)。

教学情况
School of Resource and Environmental Science
--Course for graduate student:
Enviromental Remediation: from principles to technologies (污染预防与环境修复)。

--Course for undergraduate student:
CAD for Enviromental Engineering (环境工程CAD)。
Environmental Remediation (环境修复)

承担项目与课题
PI (主持):
-- Electrokinetic- enhanced bioaugmentation for the treatment of soil contaminated by chlorinated solvent。
-- Iron-Hydrogen-Oxygen composited electrolysis process for the redox regulation and removal of contaminants in groundwater。
-- Soluble silicate assisted chemical oxidation and coagulation processes for water treatment

代表性成果
1. Pi, L.; Yang, N.; Han, W.; Xiao, W.; Wang, D. H.; Xiong, Y.; Zhou, M.; Hou, H. B.; Mao, X. H. *, Heterogeneous activation of peroxymonocarbonate by Co-Mn oxides for the efficient degradation of chlorophenols in the presence of a naturally occurring level of bicarbonate. Chemical Engineering Journal 2018, 334, 1297-1308.
2. Deng, B. W.; Tang, J. J.; Gao, M. X.; Mao, X. H. *; Zhu, H. *; Xiao, W.; Wang, D. H., Electrolytic synthesis of carbon from the captured CO2 in molten LiCl-KCl-CaCO3: Critical roles of electrode potential and temperature for hollow structure and lithium storage performance. Electrochimica Acta 2018, 259, 975-985.
3. Zhang, J.; Mao, X. H. *; Xiao, W.; Zhuang, Y. F., Photocatalytic degradation of sulfamethazine by graphitic carbon nitride-modified zinc molybdate: Effects of synthesis method on performance, degradation kinetics, and mechanism. Chinese Journal of Catalysis 2017, 38, (12), 2009-2020.
4. Song, Y.; Jiao, S. Q.; Tu, J. G.; Wang, J. X.; Liu, Y. J.; Jiao, H. D.; Mao, X. H. *; Guo, Z. C.; Fray, D. J., A long-life rechargeable Al ion battery based on molten salts. Journal of Materials Chemistry A 2017, 5, (3), 1282-1291.
5. Mao, X. H.; Yan, Z. P.; Sheng, T.; Gao, M. X.; Zhu, H.; Xiao, W.; Wang, D. H., Characterization and adsorption properties of the electrolytic carbon derived from CO2 conversion in molten salts. Carbon 2017, 111, 162-172.
6. Cui, J. X.; Zhang, L. Y.; Xi, B. D.; Zhang, J.; Mao, X. H.*, Chemical oxidation of benzene and trichloroethylene by a combination of peroxymonosulfate and permanganate linked by in-situ generated colloidal/amorphous MnO2. Chemical Engineering Journal 2017, 313, 815-825.
7. Cui, J. X.; Wang, X.; Zhang, J.; Qiu, X. Y.; Wang, D. H.; Zhao, Y.; Xi, B. D.; Alshawabkeh, A. N.; Mao, X. H. * , Disilicate-Assisted Iron Electrolysis for Sequential Fenton-Oxidation and Coagulation of Aqueous Contaminants. Environmental Science & Technology 2017, 51, (14), 8077-8084.
8. X. Deng, B. W.; Mao, X. H. *; Xiao, W.; Wang, D. H., Microbubble effect-assisted electrolytic synthesis of hollow carbon spheres from CO2. Journal of Materials Chemistry A 2017, 5, (25), 12822-12827.
9. Yang, N.; Cui, J. X.; Zhang, L. Y.; Xiao, W.; Alshawabkeh, A. N.; Mao, X. H. *, Iron electrolysis-assisted peroxymonosulfate chemical oxidation for the remediation of chlorophenol-contaminated groundwater. Journal of Chemical Technology and Biotechnology 2016, 91, (4), 938-947.
10. Jiao, S. Q.; Lei, H. P.; Tu, J. G.; Zhu, J.; Wang, J. X.; Mao, X. H. *, An industrialized prototype of the rechargeable Al/AlCl3- EMIm Cl/graphite battery and recycling of the graphitic cathode into graphene. Carbon 2016, 109, 276-281.
11. Deng, B. W.; Tang, J. J.; Mao, X. H. *; Song, Y. Q.; Zhu, H.; Xiao, W.; Wang, D. H., Kinetic and Thermodynamic Characterization of Enhanced Carbon Dioxide Absorption Process with Lithium Oxide-Containing Ternary Molten Carbonate. Environmental Science & Technology 2016, 50, (19), 10588-10595.
12. Tang, D. D.; Zhao, Y. W.; Wang, Y. X.; Yang, Y. J.; Li, D. Y.; Peng, T. W.; Mao, X. H. *, Defluorination from aqueous solution by Ti(IV)-modified granular activated carbon. Desalination and Water Treatment 2015, 54, (12), 3432-3443.
13. Tang, D. D.; Yang, N.; Yang, Y. J.; Zhang, X.; Xiao, W.; Wang, D. H.; Mao, X. H. *; Alshawabkeh, A. N., Enhanced adsorption of aqueous perchlorate on quaternary ammonium chloride surfactant-modified activated carbon fibers. Desalination and Water Treatment 2015, 55, (2), 484-495.
14. Pi, L.; Jiang, R.; Zhou, W. C.; Zhu, H.; Xiao, W.; Wang, D. H.; Mao, X. H.*, g-C3N4 Modified biochar as an adsorptive and photocatalytic material for decontamination of aqueous organic pollutants. Applied Surface Science 2015, 358, 231-239.
15. Mao, X. H.; Baek, K.; Alshawabkeh, A. N., IRON ELECTROCOAGULATION WITH ENHANCED CATHODIC REDUCTION FOR THE REMOVAL OF AQUEOUS CONTAMINANT MIXTURES. Environmental Engineering and Management Journal 2015, 14, (12), 2905-2911.
16. Gao, S.; Cui, J. X.; Xiong, Y.; Xiao, W.; Wang, D. H.; Alshawabkeh, A. N.; Mao, X. H.*, Synergetic effect of the mineralization of organic contaminants by a combined use of permanganate and peroxymonosulfate. Separation and Purification Technology 2015, 144, 248-255.
17. Gao, L. L.; Yin, H. Y.; Mao, X. H. *; Zhu, H.; Xiao, W.; Wang, D. H., Directing carbon nanotubes from aqueous phase to o/w interface for heavy metal uptaking. Environmental Science and Pollution Research 2015, 22, (18), 14201-14208.
18. Yin, H. Y.; Lu, B. H.; Xu, Y.; Tang, D. Y.; Mao, X. H.*; Xiao, W.; Wang, D. H.; Alshawabkeh, A. N., Harvesting Capacitive Carbon by Carbonization of Waste Biomass in Molten Salts. Environmental Science & Technology 2014, 48, (14), 8101-8108.
19. Tang, D. D.; Wang, Y. X.; Zhao, Y. W.; Yang, Y. J.; Zhang, L. Y.; Mao, X. H. *, Effect of the composition of Ti alloy on the photocatalytic activities of Ti-based oxide nanotube arrays prepared by anodic oxidation. Applied Surface Science 2014, 319, 181-188.
20. Jiang, R.; Tang, D. Y.; Zhao, Y. W.; Wang, Y. X.; Mao, X. H.*; Gan, F. X.; Jiang, L., Immersion Corrosion of Mild Steel and Low Alloy Steel in Eutrophic Freshwater Lakes. Materials Performance 2014, 53, (9), 58-62.
21. Gao, L. L.; Yin, H. Y.; Zhu, H.; Mao, X. H.*; Gan, F. X.; Wang, D. H., Separation of dispersed carbon nanotubes from water: Effect of pH and surfactants on the aggregation at oil/water interface. Separation and Purification Technology 2014, 129, 113-120.
22. Gao, L. L.; Mao, X. H. *; Zhu, H.; Xiao, W.; Gan, F. X.; Wang, D. H., Electropolymerization of PEDOT on CNTs conductive network assembled at water/oil interface. Electrochimica Acta 2014, 136, 97-104.
23. Mao, X. H.; Yuan, S. H.; Fallahpour, N.; Ciblak, A.; Howard, J.; Padilla, I.; Loch-Caruso, R.; Alshawabkeh, A. N., Electrochemically Induced Dual Reactive Barriers for Transformation of TCE and Mixture of Contaminants in Groundwater. Environmental Science & Technology 2012, 46, (21), 12003-12011.
24. Mao, X. H.; Wang, J.; Ciblak, A.; Cox, E. E.; Riis, C.; Terkelsen, M.; Gent, D. B.; Alshawabkeh, A. N., Electrokinetic-enhanced bioaugmentation for remediation of chlorinated solvents contaminated clay. Journal of Hazardous Materials 2012, 213, 311-317.
25. Mao, X. H.; Ciblak, A.; Baek, K.; Amiri, M.; Loch-Caruso, R.; Alshawabkeh, A. N., Optimization of electrochemical dechlorination of trichloroethylene in reducing electrolytes. Water Research 2012, 46, (6), 1847-1857.
26. Wei, L.; Zhu, H.; Mao, X. H. *; Gan, F. X., Electrochemical oxidation process combined with UV photolysis for the mineralization of nitrophenol in saline wastewater. Separation and Purification Technology 2011, 77, (1), 18-25.
27. Wei, L.; Mao, X. H.*; Lin, A.; Gan, F. X., PbO2-SnO2 composite anode with interconnected structure for the electrochemical incineration of phenol. Russian Journal of Electrochemistry 2011, 28, (12), 1394-1398.
28. Mao, X. H.; Ciblak, A.; Amiri, M.; Alshawabkeh, A. N., Redox Control for Electrochemical Dechlorination of Trichloroethylene in Bicarbonate Aqueous Media. Environmental Science & Technology 2011, 45, (15), 6517-6523.
29. Mao, X. H.; Wei, L.; Hong, S.; Zhu, H.; Lin, A.; Gan, F. X., Enhanced electrochemical oxidation of phenol by introducing ferric ions and UV radiation. Journal of Environmental Sciences 2008, 20, (11), 1386-1391.
30. Mao, X. H.; Tian, F.; Gan, F. X.; Lin, A.; Zhang, X. J., Comparison of the performances of Ti/SnO2-Sb, Ti/SnO2-Sb/PbO2, and Nb/BDD anodes on electrochemical degradation of azo dye. Russian Journal of Electrochemistry 2008, 44, (7), 802-811.

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