Name:Shuwei Chen
Birthday: 1968-08
Professional Title:professor
Department:applied chemistry
Education:doctor
Dr. Supervisor/Ms. Supervisor:Ms. Supervisor
Address:Knowledgeable building
Email:csw603@163.com
Biography
Chen Shuwei, born in 1968 in Dingxiang, Shanxi Province, is professor and master supervisor of Taiyuan University of Technology and dean of the Department of Chemistry, College of Chemistry. He received his M.S. degree in Organic Chemical Industry from Taiyuan University of Technology and Ph.D. in physical chemistry from Shanxi Institute of Coal Chemistry, Chinese Academy of Sciences. Professor Chen’s research interests include catalytic oxidation, utilization of CO2 as soft oxidant, environmental catalysis, heterogeneous catalyst, and catalytic materials. In these fields, Professor Chen has co-authored more than 40 research papers and 8 authorized national invention patents, while has won the second prize of Natural science of Shanxi Province, and the third prize of technological invention of Shanxi Province.
Education and Teaching
1.Course
organic chemistry
2.Paper
Zhou Xianxian, Chen Liang, Chen Jiaqi, Chen Shuwei, Exploration of experimental teaching reform of General Chemistry for new engineering subjects, proceedings of the 13th College Chemistry and Chemical Engineering Course Report Forum, 2018.
3.Project
Chen Shuwei, Liu Shibing, Fan Jinchuan, Pan Dahai, The construction of a new model of Basic Chemistry Experimental Teaching based on the Cultivation of innovative talents, Shanxi Teaching Reform Project, 2015.01--2016.12.
Scientific Research

1. Research Interests

utilization of CO2 as soft oxidant; environmental catalysis; heterogeneous catalyst; catalytic materials

2. Paper

[1] Pan Dahai, Ru Yu, Liu Tonglian, Wang Yongjie, Yu Feng, Chen Shuwei*, Yan Xiaoliang, Fan Binbin, Ruifeng Li*. Highly efficient and stable ordered mesoporous Ti-Al composite oxide catalyst for oxidative dehydrogenation of ethylbenzene to styrene with CO2, Chemical Engineering Science, 2022, 250: 117388-117400.

[2] Chen Shuwei*, Xu Zheqi, Tan Dongchen, Pan Dahai, Cui Xingyu, Qiao Yan, Li Ruifeng*. Oxidative dehydrogenation of ethylbenzene to styrene with CO2 over Al-MCM-41-supported vanadia catalysts, Applied Organometallic Chemistry, 2020, 34: e5396.

[3] Zhu Cun, Chen Shuwei*, Pan Dahai, Cui Xingyu, Qiao Yan, Li Ruifeng*. Ordered mesoporous alumina-supported vanadium oxides as an efficient catalyst for ethylbenzene dehydrogenation to styrene with CO2, Catalysis Communications, 2018, 115: 12-16.

[4] Pan Dahai*, Dong Zhaoyang, He Min, Chen Wei, Chen Shuwei, Yu Feng, Fan Binbin, Cui Xingyu, Li Ruifeng*. Structural and surface properties of highly ordered mesoporous magnesium-aluminium composite oxides derived from facile synthesis, Materials Chemistry and Physics, 2017, 186: 574-583.

[5] Pan Dahai*; Xu Qian; Dong Zhaoyang; Chen Shuwei; Yu Feng; Yan Xiaoliang; Fan Binbin; Li Ruifeng*. Facile synthesis of highly ordered mesoporous cobalt-alumina catalysts and their application in liquid phase selective oxidation of styrene. RSC Advances, 2015, 5, 98377-98390.

[6] ZhangHaixin, Chen Shuwei*Cui Xingyu, Pan Dahai, Qin Zhangfeng, Wang Jianguo. Effect of Ce promoter on catalytic performance of V/SiO2 in oxidative dehydrogenation of ethylbenzene with carbon dioxide, Acta Phys.-Chim. Sin. 2014, 30 (2), 351-358.

[7] Chen Shuwei, Qin Zhangfeng, Wang Guofu, Dong Mei, Wang Jianguo*. Promoting effect of carbon dioxide on the dehydrogenation of ethylbenzene over silica-supported vanadium catalysts, Fuel, 2013, 109: 43-48.

[8] Chen Shuwei, Yan Xiaoliang, Wang Yan, Chen Jiaqi, Pan Dahai, Ma Jinghong, Li Ruifeng*, Effect of SO2 on Co sites for NO-SCR by CH4 over Co-Beta, Catalysis Today, 2011, 175 (1): 12-17.

[9] Chen Shuwei, Yan Xiaoliang, Chen Jiaqi, Ma Jinghong, Li Ruifeng*. Selective catalytic reduction of NO in excess oxygen by methane over Mn/ZSM-5 catalysts, Chinese Journal of Catalysis, 2010, 31(9): 1107-1114.

[10] Chen Shuwei, Qin Zhangfeng, Sun Ailin, Wang Jianguo*. Effects of Li promoter on the catalytic performance of Fe-Li/AC for ethylbenzene dehydrogenation in the presence of CO2, Chinese Journal of Catalysis, 2009, 30(4): 359-364.

3. Patent

[1] Chen Shuwei, Cui Xingyu, Pan Dahai, Li Ruifeng, Cui Jian, Qin Zhangfeng, Zhang Haixin, A ethylbenzene dehydrogenation catalyst and its preparation method, 2016.05.11, China, ZL 201310502838.6.

[2] Chen Shuwei, Li Ruifeng, Pan Dahai, Yan Xiaoliang, Zheng Jiajun, Ma Jinghong, Catalysts and preparation methods for selective catalytic reduction of nitrogen oxides by methane, 2011.05.18, China, ZL 200810079646.8.

[3] Pan Dahai, Chen Shuwei, Cui Xingyu, Yu Feng, Li Ruifeng, Xu Qian, Wang Xu, Chromium base-loaded mesoporous catalyst and its preparation method and use, 2016.08.17, China, ZL 201410739520.4.

[4] Cui Xingyu, Chen Shuwei, Fan Binbin, Ma Jinghong, Li Ruifeng, Zhang Xuning, A treatment method for ammonia nitrogen in coking wastewater, 2011.08.31, China, ZL 201010145704.X.

[5] Pan Dahai, Zhu Shuying, Chen Shuwei, Yu Feng, Cui Xingyu, Chen Wei, Li Ruifeng, Double-component composite aluminum oxide high-thermal stability ordered mesopore material and preparation method, 2019.11.29, China, ZL 201710252681.4.

[6] Pan Dahai, Zhu Shuying, Chen Shuwei, Yu Feng, Cui Xingyu, Chen Wei, Li Ruifeng, Ordered alumina mesoporous material and preparation method, 2018.10.02, China, ZL 201710253429.5.

[7] Zhang Chaofeng, Li Jing, Chen Shuwei, Zhang Haixin, Zhu Zhihong, Wang Jianzhong, Li Ruifeng, A molecular size-supported ionic liquid catalyst and its catalytic performance in the synthesis of polyformaldehyde dimethyl ether, 2015.08.19, China, ZL 201310314411.3.

[8] Pan Dahai, Yu Feng, Li Juying, Chen Shuwei, Cui Xingyu, Zhu Shuying, Chen Wei, Macropore-mesopore ordered magnesium-aluminum composite oxide and preparation method, 2019.02.12, China, ZL 201710253428.0.

4. Projects

[1] The Central Guidance on Local Science and Technology Development Fund of Shanxi Province, YDZJSX2021A014, Study on catalytic mechanism of Indium-base composite oxide for oxidative dehydrogenation of ethylbenzene with CO2, 2021.08-2023.12.

[2] Key Research and Development Program of Shanxi Province, 201803D31034Study on key catalytic technology of oxidation dehydrogenation of ethylbenzene with CO2 to styrene, 2018.01--2020.12.

[3] National Natural Science Foundation of China, 21546009, Study on the controlled synthesis and coke resistance mechanism of V-based nanocomposite catalysts for oxidative dehydrogenation of ethylbenzene with CO2, 2016.01--2016.12.

[4] Key Research and Development Program of Shanxi Province, 20130313001-3Ethylbenzene dehydrogenation to styrene by coupling with reverse water gas reaction, 2013.01--2015.12.

[5] Foundation of Sate Key Laboratory of Coal Conversion, J12-13-603, A systematic study of a new green catalytic process based on reaction coupling, 2012.01--2013.12.

[6] National Natural Science Foundation of China, 20876102Study on the mechanism of selective catalytic reduction of NO by hydrocarbon over a new double microporous zeolite supported metal catalyst under oxygen-enriched condition, 2009.01--2011.12.

[7] Natural Science Foundation of Shanxi Province, 2008011022Study on a new process of selective oxidation dehydrogenation of ethylbenzene to styrene with N2O, 2008.01--2010.12.


College of Chemistry , Taiyuan University of Technology
No.79 West Street Yingze,Taiyuan,Shanxi,P.R.China 030024