个人简介
教育经历
1993/09-1997/06,清华大学,化工系,博士
1985/09-1988/06,浙江大学,化学系,硕士
1980/09-1983/06,安阳师专,化学系
工作经历
2001/02-至今 北京化工大学,化工学院,教授
1999/04-2001/02,北京化工大学,化工学院,副教授
1998/01-1999/02,法国巴黎矿院,化工研究所,博士后
1996/10-1997/12,韩国科学技术院KAIST,化工系,博士后
1988/07-1993/09,山东建材学院,应用化学系,讲师
获奖情况
[1] 联合国机构认可荣誉证书(UNDP,UNEP,UNIDO,WB)(2017)
[2] 中国高被引学者(Elsevier, 2014~2017)
[3] 中国石化协会科技进步一等奖(离子液体的结构性质及应用基础研究,2009)
[4] 北京市技术发明二等奖(离子液体的规模化制备及清洁工艺技术,2008)
[5] 北京化工大学优秀教师(2012)
研究领域
离子液体、化工分离技术、绿色化学、环境化工、电石化学
近期论文
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[1] A Greener Production Process of Anhydrous Acetylene and Calcium Diglycerode via Mechanical Ball Mill of Calcium Carbide and Glycerol, ACS sustain Chem. Eng., 2018, in press.
[2] Preparation of Mesoporous Carbon Materials Through Mechanochemical Reaction of calcium carbide and Transition Metal Chlorides, Ind. Eng. Chem. Res. 2018, 57 (18): 6180–6188
[3] Synthesis and Supercapacitor Application of Alkynyl Carbon Materials Derived from CaC2 and Polyhalogenated Hydrocarbons by Interfacial Mechanochemical Reactions, ACS Appl. Mater. Interfaces, 2017, 9(4):3895–3901
[4] Efficient Destruction of Hexachlorobenzene by Calcium Carbide Through Mechanochemical Reaction in a Planetary Ball Mill, Chemosphere, 2017, 166:275-280
[5] Efficient catalysis of calcium carbide for the synthesis of isophorone from acetone, Ind. Eng. Chem. Res., 2016, 55 (18): 5257–5262
[6] Unified catalytic oxidation-adsorption desulfurization process with cumene hydroperoxide oxidant and vanadate based PILs catalyst, Ind. Eng. Chem. Res., 2016, 55 (39): 10394–10403
[7] Efficient Separation of Phenol from Oil by Acid-base Complexing Adsorption,Chem. Eng. J., 2015,281:749-758
[8] Complex Extraction of Phenol and Cresol from Model Coal Tar with Polyols, Ethanol Amines and Ionic Liquids Thereof, Ind. Eng. Chem. Res., 2014, 53(1):355-362
[9] A Carbonium Pseudo Ionic Liquid with Excellent Extractive Desulfurization Performance, AIChE J, 2013,59(3):948-958.
[10] Acylation Desulfurization of Oil via Reactive Adsorption, AIChE J, 2013, 59(8):2966-2976
[11] Extractive catalytic oxidative desulfurization system for model oil using inorganic oxysalts as the oxidant and Lewis acid-organic acid mixture as the catalyst and extractant, J Appl. Cat. A, 2013 456:67-74
[12] Catalytic oxidative desulfurization of fuel by in situ H2O2 produced via oxidation of 2-propanol, Ind. Eng. Chem. Res., 2012,51 (13): 4868-4874.
[13] Removal Mechanism of Thiophenic Compounds in Model Oil by Inorganic Lewis Acids, Ind. Eng. Chem. Res., 2012,51(12): 4682-4691.
[14] Removal of Thiophenic Sulfurs Using Extractive Oxidative Desulfurization Process with Three New Phosphotungstatic Catalysts,Ind. Eng. Chem. Res., 2012,51(19):6658–6665.
[15] Adsorption Behavior of Metal-Organic Frameworks for Thiophenic Sulfurs from Diesel Oil, Ind. Eng. Chem. Res., 2012, 51(38):12449-12455.
[16] Estimation of Densities of Ionic Liquids Using Patel-Teja Equation of State and Critical Parameters Determined from Group Contribution Method, Chem. Eng. Sci., 2011,66(12):2690-2698.
[17] Density prediction of ionic liquids using a group contribution equation of state,Ind. Eng. Chem. Res., 2010, 49 (9):4420–4425.
[18] Synthesis of Ionic Liquid Using a Four-compartment Configuration Electrodialyzer, J. Membr. Sci., 2008, 318(1-2):1-4.
[19] Imdazolium-based phosphate ionic liquids- a potential solvent for extractive desulfurization of fuel, Fuel, 2008,87(1):79–84
[20] Extractive desulfurization of gasoline using imidazolum based phosphoric ionic liquids, Energy Fuels, 2006,20(5):2083-2087