北京化工大学硕博留学生导师简介
Brief Introduction of Professor of BUCT
Name 姓名 | Zhou-jun Wang | Gender 性别 | Male | ||||
College 学院 | College of Chemical Engineering | ||||||
Highest degree 最高学历 | Ph.D. | Professional Title 职称 | Prof. | ||||
Discipline/Major 专业 | Chemical Engineering | ||||||
Research Area/Direction 招生研究方向 | Heterogeneous Catalysis Energy, Environmental & Chemical Engineering Green Chemistry | ||||||
Office Phone 办公电话 | Cell Phone 手机号码 | ||||||
邮箱 | wangzj@mail.buct.edu.cn | ||||||
Research Topics(no more than 100 words)研究方向 | |||||||
1. Heterogeneous Catalysis 2. Energy, Environmental & Chemical Engineering 3. Green Chemistry | |||||||
Education Background 教育背景 | |||||||
Ph.D. / Chemical Engineering, Tianjin University, Jan. 2011 B.S. / Chemical Engineering, Tianjin University, Jul. 2006 | |||||||
Work Experience 工作经历 | |||||||
Jan. 2021 - present: Professor, College of Chemical Engineering, Beijing University of Chemical Technology (BUCT) Oct. 2017 - Oct. 2018: Visiting Scholar, International Center for Materials Nanoarchitectonics, National Institute for Materials Science, Japan May 2013 - Dec. 2020: Associate Professor, College of Chemical Engineering, BUCT Feb. 2011- Apr. 2013: Postdoctoral Researcher, State Key Laboratory of Catalysis, Dalian Institute of Chemical Physics, Chinese Academy of Sciences Sep. 2008 - Sep. 2010: Visiting Scholar, Department of Chemistry, Texas A&M University, College Station, United States | |||||||
Publications(no more than 10 representative publications) 发表文章 | |||||||
1. Z.-j. Wang, H. Song, H. Liu, J. Ye*, Coupling of solar energy and thermal energy for carbon dioxide reduction: Status and prospects, Angew. Chem. Int. Ed., 59 (2020) 8016-8035. 2. L. Su, L. Luo, H. Song, Z. Wu, W. Tu*, Z.-j. Wang*, J. Ye*, Hemispherical shell-thin lamellar WS2 porous structures composited with CdS photocatalysts for enhanced H2 evolution, Chem. Eng. J, 388 (2020) 124346. 3. Q. Liu, J. Sun, Q. Feng, S. Ji, Z.-j. Wang*, A La-promoted Ni/MgAl2O4 catalyst with superior methanation performance for the production of synthetic natural gas, Catal. Today, 339 (2020) 127-134. 4. H. Song, X. Meng, Z.-j. Wang*, H. Liu, J. Ye*, Solar-energy-mediated methane conversion, Joule, 3 (2019) 1606-1636. 5. H. Liu, L. Wei, F. Liu, Z. Pei, J. Shi, Z.-j. Wang*, D. He*, Y. Chen*, Homogeneous, heterogeneous, and biological catalysts for electrochemical N2 reduction toward NH3 under ambient conditions, ACS Catal., 9 (2019) 5245-5267. 6. Z.-j. Wang, H. Song, H. Pang, Y. Ning, T. D. Dao, Z. Wang, H. Chen, Y. Weng, Q. Fu, T. Nagao, Y. Fang*, J. Ye*, Photo-assisted methanol synthesis via CO2 reduction under ambient pressure over plasmonic Cu/ZnO catalysts, Appl. Catal. B Environ., 250 (2019) 10-16. 7. J. Sun, Y. Wang, H. Zou, X. Guo, Z.-j. Wang*, Ni catalysts supported on nanosheet and nanoplate γ-Al2O3 for carbon dioxide methanation, J. Energy Chem., 29 (2019) 3-7. 8. J. Sun, Q. Feng, Q. Liu, S. Ji, Y. Fang, X. Peng, Z.-j. Wang*, An Al2O3-coated SiC-supported Ni catalyst with enhanced activity and improved stability for production of synthetic natural gas, Ind. Eng. Chem. Res., 57 (2018) 14899-14909. 9. Y. Guo, J. Zou, X. Shi, P. Rukundo, Z.-j. Wang*, A Ni/CeO2-CDC-SiC catalyst with improved coke resistance in CO2 reforming of methane, ACS Sustainable Chem. Eng., 5 (2017) 2330-2338. 10. S. Wen, M. Liang, J. Zou, S. Wang, X. Zhu, L. Liu, Z.-j. Wang*, Synthesis of a SiO2 nanofibre confined Ni catalyst by electrospinning for CO2 reforming of methane, J. Mater. Chem. A, 3 (2015) 13299-13307. |