Jianting Tang

Date of birth: December 21, 1979

E-mail: jttang1103@126.com

1 Professional experience

(1) Now––10.2019

College of Chemistry and Molecular Sciences, Wuhan University, Wuhan, China.

(1) Now–11.2018

School of Environmental and Chemical Engineering, Chongqing Three Georges University, Chongqing, China

(2) 11.2018–12.2017

School of Chemistry and Chemical Engineering, Hunan University of Science and Technology, Xiangtan, China

(3) 12.2017–12.2016

Department of Chemistry (Green Chemistry Center), McGill University, Montreal, Canada

(4) 12.2016–01.2010

School of Chemistry and Chemical Engineering, Hunan University of Science and Technology, Xiangtan, China

(5) 07.2006–07.2005

Department of Applied Technology, Haikou College of Economics, Haikou, China

2 Education

(1) 01.2010–09.2006

Doctor degree in physical chemistry

State Key Laboratory of Catalysis, Dalian Institute of Chemical Physics, Chinese Academy of Sciences, Dalian, China

(2) 07.2005–09.2002

Master degree in physical chemistry

College of Science, Guizhou University, Guiyang, China

(3) 07.2002–09.1998

Bachelor degree in chemistry

Department of Chemistry, Xiangtan Normal College, Xiangtan, China

3 Representative publications

(1) C.-J. Li, J. Huang, X.-J. Dai, H. Wang, N. Chen, W. Wei, H. Zeng, J. Tang, C. Li, D. Zhu, L. Lv. An old dog with new tricks: Enjoin Wolff–Kishner reduction for alcohol deoxygenation and C–C bond formations. Synlett, 2019, 30, A–Q.

(2) L. Lv, D. Zhu, J. Tang, Z. Qiu, C.-C. Li, J. Gao, C.-J. Li. Cross-coupling of phenol derivatives with umpolung aldehydes catalyzed by nickel. ACS Catalysis, 2018, 8, 4622−4627.

(3) J. Tang, L. Lv, X. Dai, C.-C. Li, L. Li, C.-J. Li. Nickel-catalyzed cross-coupling of aldehydes with aryl halides via hydrazone intermediates. Chemical Communications, 2018, 54, 1750–1753.

(4) J. Li, C. Zhao, F. Lan, F. Chen, C. Teng, Q. Yan, J. Tang*. An efficient CeGeO₄ catalyst for degradation of organic dyes without light irradiation at room temperature. Catalysis Communications, 2016, 77, 26–31.

(5) D. Li, J. Tang*, J. Li. Fe₄I₃O₂₄H₁₅: A novel semiconductor with high performance in photodegradation of rhodamine B dyes under visible light irradiation. Journal of Alloys and Compounds, 2015, 633, 296–299.

(6) J. Tang*, B. Song, Q. Deng, H. Xin. Facile hydrothermal-carbonization approach to carbon-modified BiVO₄ composites with enhanced photocatalytic activity. Materials Science in Semiconductor Processing, 2015, 35, 90–95.

(7) J. Tang*, D. Li, Z. Feng, Z. Tan, B. Ou. A novel AgIO₄ semiconductor with ultrahigh activity in photodegradation of organic dyes: Insights into the photosensitization mechanism. RSC Advances, 2014, 4, 2151–2154.

(8) J. Tang*,  Y. Liu, H. Li , Z. Tan, D. Li. A novel Ag₃AsO₄ visible-light-responsive photocatalyst: Facile synthesis and exceptional photocatalytic performance. Chemical Communications, 2013, 49, 5498–5500.

(9) J. Tang, W. Gong, T. Cai, T. Xie, C. Deng, Z. Peng, Q. Deng. Novel visible light responsive Ag@(Ag₂S/Ag₃PO₄) photocatalysts: Synergistic effect between Ag and Ag₂S for their enhanced photocatalytic activity. RSC Advances, 2013, 3, 2543–2547.