李增喜，教授，博士，博士生导师。科研工作主要从事催化剂材料的合成、表征与应用、可再生资源的清洁利用等方面的科研和教学工作，作为项目负责人主持和完成国家、省部级科研项目多项, 近年来在国内外刊物上发表论文110余篇，其中SCI收率论文60多篇，申请国内发明专利20项

   

081704-应用化学

工业催化
清洁工艺
绿色技术

1991-12--1996-02 俄罗斯门捷列夫化工大学 博士
1989-09--1991-11 中科院山西煤炭化学研究所 硕士研究生
1983-09--1987-06 兰州大学 本科生

1983.09-1987.06 兰州大学，本科毕业，获学士学位。
1989.09-1991.11 中国科学院山西煤化所，硕士研究生，
1991.12-1996.02 俄罗斯门捷列夫化工大学，博士研究生毕业，获博士学位，1998.05-2011.04 德国卡尔斯鲁厄大学/环境和技术研究中心，博士后

1987.07-1989.05   核工业北京冶金化工研究院，助理工程师

1996.05-1998.04  天津大学化工学院催化科学与工程系，讲师、副教授
2001.05-2003.06  天津大学化工学院催化科学与工程系，副教授
2003.06-2006.05  中国科学院研究生院化学与化学工程学院，副教授
2006.06-2017.9    中国科学院研究生院化学与化学工程学院，教授

2017.10--至今       中国科学院大学化学工程学院, 教授

催化原理、 催化剂的制备、表征与性能关系、 催化剂制备与表征、 工业催化、 色谱和光谱实验

工业催化原理
催化剂制备与表征

已指导学生

吴九岭  硕士研究生  070301-无机化学  

李强  硕士研究生  081705-工业催化  

刘彦轻  硕士研究生  081704-应用化学  

王慧  博士研究生  081704-应用化学  

王茜  硕士研究生  081704-应用化学  

刘振  硕士研究生  081704-应用化学  

闫瑞一  博士研究生  081704-应用化学  

李姗  硕士研究生  081704-应用化学  

刘龙  博士研究生  081704-应用化学  

姜黎  硕士研究生  430117-化学工程  

余飞  硕士研究生  081704-应用化学  

朱敏莉  博士研究生  081704-应用化学  

郝文君  硕士研究生  085216-化学工程  

张涛  硕士研究生  085216-化学工程  

李斌  博士研究生  081704-应用化学  

公茂明  博士研究生  081704-应用化学  

王红岩  博士研究生  081704-应用化学  

现指导学生

王亚男  硕士研究生  081704-应用化学  

代飞  博士研究生  081704-应用化学  

孟祥展  硕士研究生  081704-应用化学  

杨丹  博士研究生  081704-应用化学  

许中山  硕士研究生  085216-化学工程  

张振才  硕士研究生  081704-应用化学  

王刚  博士研究生  081704-应用化学  

1.  Fe and Mo dual-site single-atom catalysts for high-efficiency wide-pH hydrogen evolution and alkaline overall water splitting, Chemical Engineering Journal, 2023,468: 143605

 2.  High performance carbon dioxide electroreduction in ionic liquids with in situ shell-isolated nanoparticle-enhanced Raman spectroscopy，Chemical Engineering Journal, 2023, 451:138975

 3.  Liquid-phase esterification of methacrylic acid with methanol catalyzed by cation-exchange resin in a fixed bed reactor: Experimental and kinetic studies, Chinese Journal of Chemical Engineering, 2023, 58: 1-10 

4.  Si-Modified Cs/Al2O3 for Aldol Condensation of Methyl Acetate with Formaldehyde to Methyl Acrylate by Chemical Liquid Deposition, Ind. Eng. Chem. Res. 2022, 61(48): 17467-17478

 5.  Cooperative catalytic effects between the penta-coordinated Al and Al2O3 in Al2O3-AlPO4 for aldol condensation of methyl acetate with formaldehyde to methyl acrylate, Chinese Journal of Chemical Engineering, 2022, 52:172-183

 6.  The Construction of a Ratiometric Dual-emitting amorphous Europium-Organic Frameworks for Sensitive Detection of Water in White Spirit, Dyes and Pigments, 2022, 206, 110602 

7.  Novel process for selective separation of trace artemisitene from artemisinin by ammonium functional ionic liquids，AICHE JOURNAL，2022, 68:e17711 

8.  Studies on deactivation behavior of SO42-/ZrO2-SiO2 catalyst derived from C2F4 and C3F6 oligomers deposition，Chemical Engineering Journal, 2022, 432:134395 

9.   Recent progress in one-step synthesis of acrylic acid and methyl acrylate via aldol reaction: catalyst, mechanism, kinetics and separation，Chemical Engineering Science, 2022，247：117052 

10.  A ketone-containing all-solid-state polymer electrolyte with rapid Li-ion conduction for lithium metal batteries，Chemical Engineering Journal, 2021, 427: 132025 

11.  Single atom Ru doping 2H-MoS2 as highly efficient hydrogen evolution reaction electrocatalyst in a wide pH range, Applied Catalysis B: Environmental, 2021, 298: 120490 

12.   Preparation of methyl acrylate  from methyl acetate and methanol with mild catalysis of cobalt complex, Chemical Engineering Journal,  2019, 359:  863–873 

13.  Studies on Mild Catalytic Synthesis of Methyl Acrylate via One-Step Aldol Reaction, AICHE Journal,  2018, 64(4): 1359-1371 

 14.  Unraveling the cation and anion effects and kinetics for ionic liquid catalyzed direct synthesis of methyl acrylate under mild conditions, Green Chemistry, 2020, 22, 7913–7923 

15.  A non-phosgene process for bioderived polycarbonate with high molecular weight and advanced property profile synthesized using amino acid ionic liquids as catalysts，Green Chemistry, 2020, 22(8): 2534−2542

 16.  Efficient Promotional Effects of Mo on the Catalytic Hydrogenation of Methyl Acrylate over Ni-Based Catalysts under Mild Conditions, Ind. Eng. Chem. Res. 2022, 61, 152−163 

17.  Esterification of Methacrylic Acid with Methanol: Process Optimization, Kinetic Modeling, and Reactive Distillation, Ind. Eng. Chem. Res. 2019, 58: 2135−2145 

18.  Ionic Liquid Catalyzed Probase Method for One-pot Synthesis of α, β-Unsaturated Esters from Esters and Aldehydes at Mild Condition， Green Chemistry，2017, 19：4838–4848 

19.  Hydrodynamic Characteristics of N2‑[Bmim][NO3] Two-Phase Taylor Flow in Microchannels, Ind. Eng. Chem. Res. 2021, 60, 17248−17258 

 20.  Dynamic process simulation and optimization of CO2 removal from confined space with pressure and temperature swing adsorption，Chemical Engineering Journal, 2021, 416: 129104 

21.   Synthesis of Bimetallic Au-Ag/CMK‑3 Catalysts and Their Catalytic Activity for the Oxidation of Amino Alcohol, Ind. Eng. Chem. Res. 2020, 59 (33): 14658–14667