李振花
- 教师名称:李振花
- 教师拼音名称:Li Zhenhua
- 出生日期:1966-02-21
- 性别:女
- 学科:化学工艺
- 职称:教授
其他联系方式
- 邮编:
基本信息
研究方向
获奖情况
论文成果
- Zhenhua Li is currently a professor in Tianjin University, China. She received B.S., M.S. and Ph.D degrees from School of Chemical Engineering and Technology, Tianjin University in 1986, 1989 and 1999 respectively. She became an assistant professor at School of Chemical Engineering and Technology, Tianjin University from 1989. She was a visiting scholar at Department of Chemical Engineering, University of Florida, USA from 1998 to 1999 supported by Chinese government. She was promoted as full Professor from 2005. [1]. Peiyu Wu, Xin Li, Niamat Ullah, Zhenhua Li, Synergistic effect of catalyst and plasma on CO2 decomposition in a dielectric barrier discharge plasma reactor, Molecular Catalysis, 2021, 499,111304-110313[2]. Xin Li, Yao Chen, Shize Liu, Ning Zhao, Xiangning Jiang, Meng Su, Zhenhua Li,Enhanced gasoline selectivity through Fischer-Tropsch synthesis on a bifunctional catalyst: Effects of active sites proximity and reaction temperature, Chemical Engineering Journal, 2021, 416, 129180-129183[3]. Yao Chen, Xin Li, Jingwei Zhang, Liya Dai, Ning Zhao, Chengchao Liu, Shuai Lyu, Zhenhua Li, Insight into the Influence of the Graphite Layer and Cobalt Crystalline on a ZIF-67-Derived Catalyst for Fischer−Tropsch Synthesis, ACS Applied Materials and Interfaces, 2021, 13:9885-9896[4]. Yao Chen, Xin Li, Jingwei Zhang, Ning Zhao, Liya Dai, Xiangning Jiang, Chengchao Liu, Shuai Lyu, Zhenhua Li, Preparation of SiO2 immobilized Co-based catalysts from ZIF-67 and the enhancement effect for Fischer-Tropsch synthesis, Applied Catalysis B: Environmental, 2021, 289: 120027-120038[5]. Yao Chen, Xin Li, Liya Dai, Mehar U Nisa, Chengchao Liu, Shuai Lv, Jing Lv, Zhenhua Li, Controllable synthesis of core-shell Co@C@SiO2 catalysts for enhancing product selectivity in Fischer-Tropsch synthesis by tuning the mass transfer resistance, Journal of Energy Chemistry, 2020, 51: 199–206[6]. Xin Li, Yao Chen, Mehar U. Nisa, Zhenhua Li, Combating poison with poison-Irreducible Co2SiO4 as a promoter to modify Co-based catalysts in Fischer-Tropsch synthesis, Applied Catalysis B: Environmental, 2020, 267: 118377-118388[7]. Yao Chen, Jingwei Zhang, Xiangning Jiang, Liang Wei, Zhenhua Li, Chengchao Liu, Nano-ZSM-5 decorated cobalt based catalysts for Fischer-Tropsch synthesis to enhance the gasoline range products selectivity, Journal of the Taiwan Institute of Chemical Engineers, 2020, 116: 153-159[8]. Mehar U. Nisa, Yao Chen, Xin Li, Zhenhua Li, Highly efficient Iron based MOFs mediated catalysts for Fischer-Tropsch Synthesis: Effect of reduction atmosphere, Journal of the Taiwan Institute of Chemical Engineers, 2020, 107:44-53[9]. Yajun Hui, Niamatullah, Lijuan Zhang, Zhenhua Li, CO2 methanation over nickel-based catalysts prepared by citric acid complexation method, Applied Organometallic Chemistry,2020, 34(2): e5268-5279 [10]. Xin Li, Yao Chen, Peiyu Wu, Mehar Nisa, Zhenhua Li, A core-shell Co@C catalyst: Effect of confined carbon microenvironment on syngas conversion, Industrial and Engineering Chemistry Research, 2020, 59, 14636-14642[11]. Kan Zhang, Weihan Wang, Baowei Wang, Xinbin Ma, Zhenhua Li, Promoted effect of cobalt on surface (010) of MoS2 for CO methanation from a DFT study, Applied Surface Science, 2019, 463: 635-646[12]. Kan Zhang, Qiang Wang, Baowei Wang, Yan Xu, Xinbin Ma, Zhenhua Li, A DFT study on CO methanation over the activated basal plane from a strained two-dimensional nano-MoS2,Applied Surface Science, 2019, 479:360-367 [13]. Yao Chen, Xin Li, Mehar U. Nisa, Jing Lv, Zhenhua Li, ZIF-67 as precursor to prepare high loading and dispersion catalysts for Fischer-Tropsch synthesis: Particle size effect, Fuel, 2019, 241: 802-812[14]. Xin Li, Yao Chen, Mehar U. Nisa, Jing Lv, Zhenhua Li, Co-Based Catalysts Supported on Silica or Carbon Materials: the Effect of Support Surface on Cobalt Species and FTS Performance, Industrial and Engineering Chemistry Research, 2019, 58, 3459−3467 [15]. Zijia Yin, Baowei Wang, Yan Xu, Zhenhua Li, Xinbin Ma,Insight for the effect of bridging in molybdenum sulfide catalysts toward sulfur-resistant methanation, Applied Surface Science, 2019, 471: 670-677 [16]. Tingting Zhao, Yajun Hui, Niamatullah, Zhenhua Li, Controllable preparation of ZIF-67 derived catalyst for CO2 methanation, Molecular Catalysis, 2019, 474, 110421-110429[17]. Qiang Wang, Yao Chen, Zhenhua Li, Research progress of catalysis for low-carbon olefins synthesis through hydrogenation of CO2, Journal of Nanoscience and Nanotechnology, 2019, 19(6): 3162-3172 [18]. Jiahui Zhang, Xiaoshan Zhang, Baowei Wang, Zhenhua Li, Xinbin Ma, Optimization of co-precipitation condition for preparing molybdenum based sulfur-resistant methanation catalyst, Transactions of Tianjin University, 2019, 25: 504[19]. Niamatullah, Jianglei Qu, Zhenhua Li, Enhanced sulfur-resistant methanation performance over MoO3-ZrO2 catalyst prepared by solution combustion method, Applied Organometallic Chemistry, 2019, DOI: 10.1002/aoc.5022[20]. Tingting Zhao, Niamat Ullah, Yajun Hui, Zhenhua Li, Review of plasma-assisted reactions and potential applications for modification of metal-organic frameworks, Front. Chem. Sci. Eng., 2019, 13(3): 444 -457[21]. Renjie Liu; Runxue Liu; Xinbin Ma; Burtron H.Davis; Zhenhua Li, Efficient diesel production over the iron-based Fischer-Tropsch catalyst supported on CNTs treated by urea/NaOH. Fuel, 2018, 211, 827-83[22]. Li Bian, Lijuan Zhang, Ziting Zhu, Zhenhua Li, Methanation of carbon oxides on Ni/Ce/SBA-15 pretreated with dielectric barrier discharge plasma, Molecular Catalysis, 2018, 446: 131-139[23]. Lijuan Zhang, Li Bian, Ziting Zhu, Zhenhua Li, La-promoted Ni/Mg-Al catalysts with highly enhanced low-temperature CO2 methanation performance, International Journal of Hydrogen Energy, 2018, 43: 2197-2206[24]. Chen Liu, Weihan Wang, Yan Xu, Zhenhua Li, Baowei Wang, Xinbin Ma, Effect of zirconia morphology on sulfur-resistant methanation performance of MoO3/ZrO2 catalyst, Applied Surface Science, 2018, 441: 482-490[25]. Li Bian, Tingting Zhao, Lijuan Zhang, Zhenhua Li, Enhanced metal-support interaction on NiSi-P catalyst for improved COx methanation performance, Applied Surface Science, 2018, 455, 53-60[26]. Zhenhua Li, Chen Liu, Xiaoshan Zhang, Weihan Wang, Baowei Wang and Xinbin Ma, Effect of ZrO2 on catalyst structure and catalytic sulfur-resistant methanation performance of MoO3/ZrO2-Al2O3 catalysts, Kinetic and Catalysis, 2018, 59(4): 481-488 [27]. Zhenhua Li, Zijia Yin, Weihan Wang, Ye Tian, Baowei Wang, Xinbin Ma, The double-edged effect of citric acid on the catalytic activity of nano-sized MoS2 toward sulfur-resistant CO methanation, Applied Organometallic Chemistry,2018,10.1002/aoc.4339[28]. Zhenhua Li, Tingting Zhao, Lijuan Zhang, Investigation of CO2 methanation performance on Fe modified Ni/Al2O3 catalyst, Applied Organometallic Chemistry,2018,doi.org/10.1002/aoc.4328[29]. Zhenhua Li, Mengyao Si, Xin Li, Renjie Liu, Runxue Liu, Jing Lv,Cobalt catalysts for Fischer-Tropsch synthesis: the effect of support, precipitant and pH value, Chinese Journal of Chemical Engineering,2018, 26: 747–752[30]. Zhenhua Li, Kan Zhang, Weihan Wang, Xinbin Ma, DFT study into the reaction mechanism of CO methanation over pure MoS2, International Journal of Quantum Chemistry, 2018, DOI: 10.1002/qua.25643 [31]. Zhenhua Li, Runxue Liu, Renjie Liu, Weihan Wang, Jing Lv. Novel Method for Preparing a Carbon Nanotube-Supported Cobalt Catalyst for Fischer–Tropsch Synthesis: Hydrogen Dielectric-Barrier Discharge Plasma, Transactions of Tianjin University, 2017, 23(1): 20-25.[32]. Renjie Liu, Runxue Liu, Mengyao Si, Jing Lv, Xinbin Ma, and Zhenhua Li, Carbon nanotubes-MnOx nanocomposite as support for iron-based catalysts for the Fischer-Tropsch synthesis of liquid fuels, Energy Technol. 2017, 5, 1517-1521 [33]. 李振花,张晓珊,王玮涵,马新宾,制备方法对钼基耐硫甲烷化催化剂性能的影响,化工学报,2017, 68(1):129-135[34]. 李振花,刘晨,谢春芳,王玮涵,王保伟,马新宾. 反应气中水对钼基甲烷化催化剂性能的影响. 燃料化学学报,2017,45(6): 689-696[35]. Renjie Liu, Yu Qiao, Yan Xu, Xinbin Ma, Zhenhua Li, A facile controlled in-situ synthesis of monodisperse magnetic carbon nanotubes nanocomposites using water-ethylene glycol mixed solvents, Journal of Alloys and Compounds,2016,657:138-143[36]. Renjie Liu, Yan Xu, Zhenhua Li, and Xinbin Ma, A Facile and Efficient Modification of CNTs for Improved Fischer-Tropsch Performance on Iron Catalyst: Alkali Modification, ChemCatChem, 2016, 8, 1454–1458 /封面论文[37]. Kechao Zhao, Zhenhua Li, Highly efficient Ni/ZrO2 catalysts prepared via combustion method for CO2 methanation, Journal of CO2 Utilization,2016,236–244[38]. Li Bian, Weihan Wang, Rong Xia and Zhenhua Li, Ni-based catalyst derived from Ni/Al hydrotalcite-like compounds by the urea hydrolysis method for CO methanation, RSC Advances, 2016, 6, 677-686[39]. Zhenhua Li, Kan Zhang, Weihan Wang, Jianglei Qu, Ye Tian, Baowei Wang, Xinbin Ma, Kinetics of sulfur-resistant methanation over supported molybdenum-based catalyst, Journal of the Taiwan Institute of Chemical Engineers, 2016, 68: 239–245[40]. Kechao Zhao, Zhenhua Li, Li Bian, CO2 methanation and co-methanation of CO and CO2 over Mn-promoted Ni/Al2O3 catalysts, Frontiers of Chemical Science and Engineering, 2016, 10(2): 273-280[41]. 李振花,曲江磊,临CO2气氛下钼基催化剂耐硫甲烷化性能研究,燃料化学学报,2016,44(8), 985-992[42]. 刘润雪,李振花,铁基费托合成催化剂研究进展,化工进展,2016, 35(10), 3169- 3179[43]. Chengdu Huang, Suli Bai, Jing Lv, Zhenhua Li, Characterization of silica supported cobalt catalyst prepared by decomposition of nitrates using dielectric-barrier discharge plasma, Catalysis Letters, 2011, 141: 1391-1398[44]. Jing Lv, Xinbin Ma, Suli Bai, Chengdu Huang, Zhenhua Li, Hydrogenation of carbon monoxide over cobalt nanoparticles supported on carbon nanotubes, International Journal of Hydrogen Energy, 2011,36:8365-8372[45]. Zhenhua Li, Suli Bai, Chengdu Huang, Jing Lv, Cobalt Species Transformation of Carbon Nanotubes Supported Cobalt Catalyst and the Effect On Fischer-Tropsch Synthesis, 2011 AIChE annual meeting, October 16-21, Minneapolis, USA.[46]. Suli Bai, Chengdu Huang, Jing Lv, Zhenhua Li, Comparison of induction behavior of Co/CNT and Co/SiO2 catalysts for the Fischer-Tropsch synthesis, Catalysis Communication, 2012, 22: 24-27[47]. Suli Bai, Chengdu Huang, Jing Lv, Zhenhua Li, Performance of Cobalt-Based Fischer-Tropsch Synthesis Catalysts Using Dielectric-Barrier Discharge Plasma as an Alternative to Thermal Calcination, Plasma Science and Technology, 2012, 14(1), 54-57[48]. Jing Lv, Chengdu Huang, Suli Bai, Yunhui Jiang, Zhenhua Li, Thermal Decomposition and Cobalt Species Transformation of Carbon Nanotubes Supported Cobalt Catalyst for Fischer-Tropsch Synthesis, Journal of Natural Gas Chemistry, 2012, 21(1), 37-42[49]. Haiyang Wang, Zhenhua Li, Erdong Wang, et. al., Effect of composite supports on the methanation activity of Co-Mo-based sulfur-resistant catalyst. Journal of Natural Gas Chemistry, 2012, 21 (6): 767-773.[50]. Haiyang Wang, Zhenhua Li, Erdong Wang, et. al., Effect of composite supports on the methanation activity of Co-Mo-based sulfur-resistant catalyst. Journal of Natural Gas Chemistry, 2012, 21 (6): 767-773.[51]. Jia Liu, Erdong Wang, Jing Lv, Zhenhua Li, et. al., Investigation of sulfur-resistant, highly active unsupported MoS2 catalysts for synthetic natural gas production from CO methanation, Fuel Processing Technology, 2013, 110: 249–257.[52]. Zhenhua Li, Haiyang Wang, Erdong Wang, et. al., Influence factor on production of synthetic natural gas by sulfur–resistant methanation of syngas over Mo–based catalysts. Kinetics and Catalysis, 2013, 54(3): 352-357[53]. Tingjun Fu, Yunhui Jiang, Jing Lv, Zhenhua Li,Effect of carbon support on Fischer–Tropsch synthesis activity and product distribution over Co-based catalysts,Fuel Processing Technology, 2013, 110:141-149 [54]. Yunhui Jiang, Tingjun Fu, Jing Lv, Zhenhua Li, A zirconium modified Co/SiO2 Fischer-Tropsch catalyst prepared by dielectric-barrier discharge plasma,Journal of Energy Chemistry, 2013, 22(3): 506-511[55]. Zhenhua Li, Haiyang Wang, Erdong Wang, et. al., Shaodong Qin, Qi Sun. The main factors controlling generation of synthetic natural gas by methanation of synthesis gas in the presence of sulfur-resistant Mo-based catalysts, 2013, Kinetics and Catalysis, 2013, 54(3): 352-357[56]. Zhenhua Li, Jia Liu, Haiyang Wang, et. al.,Effect of sulfidation temperature on the catalytic behavior of unsupported MoS2 catalysts for synthetic natural gas production from syngas, Journal of Molecular Catalysis A: Chemical, 2013, 378: 99-108[57]. Minhong Jiang, Baowei Wang, Zhenhua Li, et al. The Role of the Distribution of Ce species on MoO3/CeO2-Al2O3 catalyst for sulfur-resistant methanation. Catalysis Communications, 2013, 35: 32-35[58]. Minhong Jiang, Baowei Wang, Zhenhua Li, et al. Effect of sulfidation temperature on the catalytic activity of MoO3/CeO2-Al2O3 catalyst for sulfur-resistant methanation, Applied Catalysis A: General, 2013, 466: 224-232[59]. Minhong Jiang, Baowei Wang, Zhenhua Li, et al. Effect of sulfidation temperature on CoO-MoO3/γ-Al2O3 catalyst for sulfur-resistant methanation, Catalysis Science & Technology. 2013, 3, 2793-2800[60]. Minhong Jiang, Baowei Wang, Yuqin Yao, Zhenhua Li, et. al., A comparative study of CeO2-Al2O3 support prepared with different methods and its application on MoO3/CeO2-Al2O3 catalyst for sulfur-resistant methanation, Applied Surface Science, 2013,285(15):267-277[61]. Minhong Jiang, Baowei Wang, Yuqin Yao, Haiyang Wang, Zhenhua Li, et. al., Effect of stepwise sulfidation on a MoO3/CeO2-Al2O3 catalyst for sulfur-resistant methanation, Applied Catalysis A: General, 469(17), 2014, 89-97[62]. Can Lin, Haiyang Wang, Zhenhua Li, et. al., Effect of a promoter on the methanation activity of Mo-based sulfur-resistant catalyst. Frontiers of Chemical Science and Engineering, 2013, 7(1): 88–94 [63]. Tingjun Fu, Chengdu Huang, Jing Lv, Zhenhua Li, Fuel production through Fischer-Tropsch synthesis on carbon nanotubes supported Co catalyst prepared by plasma, Fuel, 2014, 121: 225–231[64]. Tingjun Fu, Chengdu Huang, Jing Lv, Zhenhua Li, Fischer-Tropsch performance on Co-based catalysts prepared by H2 dielectric-barrier discharge plasma rather than traditional calcination and reduction, Plasma Science and Technology, 2014, 16(3): 232-238[65]. Zhenhua Li, Li Bian, Qiujun Zhu, Weihan Wang, Ni-Based Catalyst Derived from Ni/Mg/Al Hydrotalcite-Like Compounds and its Activity in the methanation of Carbon Monoxide, Kinetics and Catalysis, 2014, 55(2): 226–233[66]. Tingjun Fu, Jing Lv, Zhenhua Li, Effect of carbon porosity and cobalt particle size on the catalytic performance of carbon supported cobalt Fischer-Tropsch catalysts, Industrial and Engineering Chemistry Research, 2014, 53(4), 1342-1350.[67]. Tingjun Fu, Zhenhua Li, Highly dispersed cobalt on N-doped carbon nanotubes with improved Fischer-Tropsch synthesis activity, Catal. Comm., 2014, 47: 54-57.[68]. Tingjun Fu, Renjie Liu, Jing Lv, Zhenhua Li, Influence of acid treatment on N-doped multi-walled carbon nanotube supports for Fischer-Tropsch performance on cobalt catalyst, Fuel Processing Technology, 2014, 122: 49–57[69]. Haiyang Wang, Zhenhua Li, Precursor effect on catalytic properties of Mo-based catalyst for sulfur-resistant methanation, Korean J. Chem. Eng., 2014, 31 (12): 2157- 2161[70]. Zhenhua Li, Ye Tian, Jia He, Baowei Wang, Xinbin Ma, High CO methanation activity on zirconia-supported molybdenum sulfide catalyst, Journal of Energy Chemistry, 2014, 23(5): 625-632. [71]. Zhenhua Li, Renjie Liu, Yan Xu, Xinbin Ma, Enhanced Fischer–Tropsch synthesis performance of iron-based catalysts supported on nitric acid treated N-doped CNTs, Applied Surface Science, 2015, 347: 643–650[72]. Ren-Jie Liu, Yan Xu, Yu Qiao, Zhen-Hua Li, Xin-Bin Ma, Factors influencing the Fischer–Tropsch synthesis performance of iron-based catalyst: Iron oxide dispersion, distribution and reducibility, Fuel Processing Technology, 2015, 139: 25–32[73]. Tingjun Fu, Zhenhua Li, Review of recent development in Co-based catalysts supported on carbon materials for Fischer-Tropsch synthesis, Chemical Engineering Science, 2015, 135: 3-20[74]. Li Zhang, Zhenhua Li, The promoter action of CeO2 for the Ni/Al2O3 catalyzed methanation of CO2, Kinetics and Catalysis, 2015, 56(3): 326-332[75]. Haiyang Wang, Zhenhua Li, Influence of water on the methanation performance of Mo-based sulfur-resistant catalysts with and without cobalt additive, Bull. Korean Chem. Soc., 2015, 36(1): 74-82 [76]. Li Bian, Li Zhang , Rong Xia, Zhenhua Li, Enhanced low-temperature CO2 methanation activity on plasma-prepared Ni-based catalyst, Journal of Natural Gas Science and Engineering, 2015, 27: 1189-1194[77]. Tingjun Fu, Chengdu Huang, Jing Lv, Zhenhua Li, Fuel production through Fischer-Tropsch synthesis on carbon nanotubes supported Co catalyst prepared by plasma, Fuel, 2014, 121: 225–231[78]. Tingjun Fu, Chengdu Huang, Jing Lv, Zhenhua Li, Fischer-Tropsch performance on Co-based catalysts prepared by H2 dielectric-barrier discharge plasma rather than traditional calcination and reduction, Plasma Science and Technology, 2014, 16(3): 232-238[79]. Zhenhua Li, Li Bian, Qiujun Zhu, Weihan Wang, Ni-Based Catalyst Derived from Ni/Mg/Al Hydrotalcite-Like Compounds and its Activity in the methanation of Carbon Monoxide, Kinetics and Catalysis, 2014, 55(2): 226–233[80]. Tingjun Fu, Jing Lv, Zhenhua Li, Effect of carbon porosity and cobalt particle size on the catalytic performance of carbon supported cobalt Fischer-Tropsch catalysts, Industrial and Engineering Chemistry Research, 2014, 53(4), 1342-1350.[81]. Tingjun Fu, Zhenhua Li, Highly dispersed cobalt on N-doped carbon nanotubes with improved Fischer-Tropsch synthesis activity, Catal. Comm., 2014, 47: 54-57.[82]. Tingjun Fu, Renjie Liu, Jing Lv, Zhenhua Li, Influence of acid treatment on N-doped multi-walled carbon nanotube supports for Fischer-Tropsch performance on cobalt catalyst, Fuel Processing Technology, 2014, 122: 49–57[83]. 侯志源,王胜平,李振花,氢氧化钙羰基化合成甲酸钙反应历程分析及热力学计算,天然气化工,2014, 39(3) 13-18. [84]. Haiyang Wang, Zhenhua Li, Precursor effect on catalytic properties of Mo-based catalyst for sulfur-resistant methanation, Korean J. Chem. Eng., 2014, 31 (12): 2157- 2161[85]. Zhenhua Li, Ye Tian, Jia He, Baowei Wang, Xinbin Ma, High CO methanation activity on zirconia-supported molybdenum sulfide catalyst, Journal of Energy Chemistry, 2014, 23(5): 625-632. SCI:AQ7AZ[86]. 江云辉,付廷俊,吕静,李振花. 载体 SiO2 孔径及助剂对 Co/SiO2 催化剂微观结构及费托合成反应性能的影响. 高校化学工程学报, 2014, 28(3): 553-560.[87]. Zhenhua Li, Weihan Wang, Jing Lv, Xinbin Ma, Modeling of a packed bubble column for methyl nitrite regeneration based on reaction kinetics and mass transfer, Industrial and Engineering Chemistry Research, 2013, 52(8): 2814-2823.[88]. Tingjun Fu, Yunhui Jiang, Jing Lv, Zhenhua Li, Effect of carbon support on Fischer–Tropsch synthesis activity and product distribution over Co-based catalysts,Fuel Processing Technology, 2013, 110:141-149 [89]. Yunhui Jiang, Tingjun Fu, Jing Lv, Zhenhua Li, A zirconium modified Co/SiO2 Fischer-Tropsch catalyst prepared by dielectric-barrier discharge plasma,Journal of Energy Chemistry, 2013, 22(3): 506-511[90]. Zhenhua Li, Haiyang Wang, Erdong Wang, Jing Lv, Yuguang Shang, Guozhong Ding, Baowei Wang, Xinbin Ma, Shaodong Qin, Qi Sun. The main factors controlling generation of synthetic natural gas by methanation of synthesis gas in the presence of sulfu...
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教育经历
- 1995.3-1999.3 Tianjin University Chemical Technology Ph..D.
- 1986.9-1989.3 Tianjin University Chemical Engineering M.S.
- 1982.9-1986.7 Tianjin University Chemical Engineering B.S.
工作经历
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2005.7 -2017.12
|Tianjin University|Tianjin University|School of Chemical Engineering & Technology|Professor
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1996.12 -2005.7
|School of Chemical Engineering & Technology|Tianjin University|Associate professor
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1991.12 -1996.12
|School of Chemical Engineering & Technology|Tianjin University|Lecturer
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1989.3 -1991.12
|School of Chem. Eng. & Tech|Tianjin University|Assistant professor