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Wang, Zhi
Title: Professor/Secretary of CPC Committee of college
Address: School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, China
Office Phone: +86(0)22-27404533
Email: wangzhi@tju.edu.cn

EDUCATIOON
1996,05-1997,10   Postdoctoral, Chemical Engineering, Karlsruhe Institute of Technology, DE
1990,09-1993,06   Ph.D. Chemical Engineering, Tianjin University, CN
1987,09-1990,06   M.S. Chemical Engineering, Tianjin University, CN
1983,09-1987,06   B.S. Chemical Enineering Equipment And Machinery, Tianjin University, CN

WORK EXPERIENCE
2010-present  Full Professor/Secretary of CPC Committee, School of Chemical Engineering and Technology, Tianjin University
2008-present  Director, Tianjin Key Lab of Membrane Science and Desalination Technology, Tianjin
2005- 2010     Full Professor/Associate Dean, School of Chemical Engineering and Technology, Tianjin University
2003-2005      Full Professor/Deputy Secretary of CPC Committee, School of Chemical Engineering and Technology, Tianjin     University
2001-present  Full Professor, School of Chemical Engineering and Technology, Tianjin University
1995-2001      Associate Professor, School of Chemical Engineering and Technology, Tianjin University
1993-1995      Assistant Professor/ Lecturer, Chemical Engineering Research Center, Tianjin University

AWARDS AND HONORS
2009     The first prize The construction of diversification and internationalization graduate education innovation  system for chemical engineering  National teaching awards
2004     The first prize Basic researches in membranes and membrane processes Tianjin  Natural Science Award

MEMBERS OF THE EDITORIAL BOARD OF PROFESSIONAL JOURNALS
2014-present  Member of the Editorial Board of Journal of Membrane Science
2010-present  Member of the Editorial Board of Membrane Water Treatment
2013-present  Associate Editor of Journal of Chemical Engineering of Chinese Universities
2005-present  Member of the Editorial Board of Membrane Science and Technology
2013-present  Member of the Editorial Board of Technology of Water Treatment

REPRESENT PAPERS

[1] Z. Qiao, Z. Wang, S. Yuan, J. Wang, S. Wang,Preparation and characterization of small molecular amine modified PVAm membranes for CO2/H2 separation, Journal of Membrane Science, 475(2015)290–302.
[2] P. Li, Z. Wang, Y. Liu. S. Zhao, J. Wang, S. Wang,A synergistic strategy via the combination of multiple functional groups into membranes towards superior CO2 separation performances, Journal of Membrane Science, 476(2015)243–255.
[3] Z. Qiao, Z. Wang, S. Yuan, J. Wang, S. Wang, Cyclic tertiary amino group containing fixed carrier membranes for CO2 separation, Journal of Membrane Science, 476(2015)171–181.
[4] J. Xu, Z. Wang, X. Wei, S. Yang, J. Wang, S. Wang,Positively charged aromatic polyamide reverse osmosis membrane with high anti-fouling property prepared by polyethylenimine grafting, Desalination, 365(2015)398-406.

[5] J. Liao, Z. Wang, C. Gao, S. Li, Z. Qiao, M. Wang, S. Zhao, X. Xie, J. Wang, S. Wang, Fabrication of high-performance facilitated transport membranes for CO2 separation, Chemical Science, 5 (2014) 2843-2849.
[6]K. Yao, Z. Wang, J. Wang, S. Wang ,Biomimetic material—poly (N-vinylimidazole)–zinc complex for CO2 separation, Chemical Communications, 12(2014), 1766-1768
[7] S. Li, Z. Wang, W. He, C. Zhang, H. Wu, J. Wang, S. Wang, Effects of minor SO2 on the transport properties of fixed carrier membranes for CO2 capture, Industrial and Engineering Chemistry Research, 53 (2014) 7758-7767.
[8] S. Zhao, Z. Wang, J. Wang, S. Wang, The effect of pH of coagulation bath on tailoring the morphology and separation performance of polysulfone/polyaniline ultrafiltration membrane, Journal of Membrane Science, 469 (2014) 316-325.
[9] X. Tian, Z. Wang, S. Zhao, S. Li, J. Wang, S. Wang, The influence of the nonsolvent intrusion through the casting film bottom surface on the macrovoid formation, Journal of Membrane Science, 464 (2014) 8-19.
[10] Z. Ma, Z. Qiao, Z. Wang, X. Cao, Y. He, J. Wang, S. Wang, CO2 separation enhancement of the membrane by modifying the polymer with a small molecule containing amine and ester groups, RSC Advances, 4 (2014) 21313-21317.
[11] Z. Qiao, Z. Wang, C. Zhang, S. Yuan, Y. Zhu, J. Wang, S. Wang, PVAm-PIP/PS Composite Membrane with High Performance for CO2/N2 Separation, AIChE Journal, 59 (2013) 215-228.
[12]M. Wang, Z. Wang, S. Li, C. Zhang, J. Wang, S. Wang, A high performance antioxidative and acid resistant membrane prepared by interfacial polymerization for CO2 separation, Energy & Environmental Science, 2(2013), 539-551
[13] S. Zhao, Z. Wang, Z. Qiao, X. Wei, C. Zhang, J. Wang, S. Wang, Gas separation membrane with CO2-facilitated transport highway constructed from amino carrier containing nanorods and macromolecules, Journal of Materials Chemistry A, 1 (2013) 246-249.
[14] Z. Zhang, Z. Wang, J. Wang, S. Wang, Enhancing chlorine resistances and anti-biofouling properties of commercial aromatic polyamide reverse osmosis membranes by grafting 3-allyl-5,5-dimethylhydantoin and N,N'-Methylenebis(acrylamide), Desalination, 309 (2013) 187-196.
[15] J. Xu, Z. Wang, L. Yu, J. Wang, S. Wang, A novel reverse osmosis membrane with regenerable anti-biofouling and chlorine resistant properties, Journal of Membrane Science, 435 (2013) 80-91.
[16] M. Wang, Z. Wang, S. Li, C. Zhang, J. Wang, S. Wang, A high performance antioxidative and acid resistant membrane prepared by interfacial polymerization for CO2 separation from flue gas, Energy and Environmental Science, 6 (2013) 539-551.
[17] Z. Qiao, Z. Wang, S. Zhao, S. Yuan, J. Wang, S. Wang, High adsorption performance polymers modified by small molecules containing functional groups for CO2 separation, RSC Advances, 3 (2013) 50-54.
[18] S. Li, Z. Wang, C. Zhang, M. Wang, F. Yuan, J. Wang, S. Wang, Interfacially polymerized thin film composite membranes containing ethylene oxide groups for CO2 separation, Journal of Membrane Science, 436 (2013) 121-131.
[19] S. Zhao, Z. Wang, X. Wei, B. Zhao, J. Wang, S. Yang, S. Wang, Performance improvement of polysulfone ultrafiltration membrane using well-dispersed polyaniline-poly(vinylpyrrolidone) nanocomposite as the additive, Industrial and Engineering Chemistry Research, 51(2012) 4661-4672.
[20] J. Zhao, Z. Wang, J. Wang, S. Wang, High-performance membranes comprising polyaniline nanoparticles incorporated into polyvinylamine matrix for CO2/N2 separation, Journal of Membrane Science, 403-404 (2012) 203-215.
[21] F. Yuan, Z. Wang, X. Yu, Z. Wei, S. Li, J. Wang, S. Wang, Visualization of the formation of interfacially polymerized film by an optical contact angle measuring device, Journal of Physical Chemistry C, 116 (2012) 11496-11506.
[22] F. Yuan, Z. Wang, S. Li, J. Wang, S. Wang, Formation-structure-performance correlation of thin film composite membranes prepared by interfacial polymerization for gas separation, Journal of Membrane Science, 421-422 (2012) 327-341.
[23]S. Li, Z. Wang, X. Yu, J. Wang, S. Wang, High‐Performance Membranes with Multi‐permselectivity for CO2 Separation, Advanced Materials, 24(2012),3196-3200.
[24]M. Wang, Z. Wang, J. Wang, Y. Zhu, S. Wang, An antioxidative composite membrane with the carboxylate group as a fixed carrier for CO2 separation from flue gas, Energy & Environmental Science ,10(2011), 3955-3959.