Dongbin Wei, Male, PhD, Professor. He got his Ph.D. degree in 2001 from School of Environment, Nanjing University。 He did his post-doctoral research respectively in Department of Environmental Science and Engineering of Tsinghua University and Graduate School of Environment and Information Science of Yokohama National University of Japan from 2001 to 2006. He joined the Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences since October, 2006. His main research areas are toxicity-directed transformation mechanisms of typical emerging pollutants during environment processes and ecological risk assessment. His research interest includes: (1) Formation, eco-environmental behaviors and transformation mechanisms of emerging pollutants during typical environmental processes; (2) Toxic effects and toxicological mechanisms of emerging organic pollutants; (3) Quantitative structure - activity relationship and ecological risk assessment of typical organic pollutants; (4) Safety assessment on water quality of reclaimed water and water reuse. His work has been financially supported by tens of national research projects, such as, National Natural Science Foundation of China, National Key Technologies R&D Program, National High-Tech R&D Program (863 Program), Important National Science & Technology Specific Projects, and so on. Up to now, more than 100 articles have been published in some national and international academic journals. 

　　Toxicity-Directed Transformation Mechanisms and Risk Assessment of Emerging Pollutants during Environmental Processes 

　　1. Li Yuan, Wei Dongbin^*, Du Yuguo. Oxidative transformation of levofloxacin by δ-MnO₂: Products, pathways and toxicity assessment. Chemosphere 2015, 119: 282-288. 

　　2. Li Min, Wei Dongbin^*, Zhao Huimin, Du Yuguo^*. Genotoxicity of quinolones: Substituents contribution and transformation products QSAR evaluation using 2D and 3D models. Chemosphere 2014, 95: 220-226. 

　　3. Xiao Ming, Wei Dongbin^*, Yin Junxia, Wei Guohua Wei, Du Yuguo^*. Transformation mechanism of benzophenone-4 in free chlorine promoted chlorination disinfection. Water Research 2013, 47(16): 6223-6233. 

　　4. Li Liping, Wei Dongbin^*, Wei Guohua, Du Yuguo. Transformation of cefazolin during chlorination process: products, mechanism and genotoxicity assessment. Journal of Hazardous Materials 2013, 262: 48-54. 

　　5. Zhao Huimin, Wei Dongbin^*, Li Min, Du Yuguo. Substituent contribution to the genotoxicity of benzophenone-type UV filters. Ecotoxicology and Environmental Safety 2013, 95: 241-246. 

　　6. Ma Xing, Wang Jing, Shan Qiuli, Tan Zhuowei, Wei Guohua^*, Wei Dongbin^*, Du Yuguo^*. A “Turn-on” Fluorescent Hg²⁺ Chemosensor Based on Ferrier Carbocyclization. Organic Letters 2012, 14(3): 820-823. 

　　7. Wei Dongbin, Sun Yanling, Yin Junxia, Wei Guohua^*, Du Yuguo^*. Design and application of Fe³⁺ probe for “naked-eye” colorimetric detection in fully aqueous system. Sensors and Actuators B: Chemical 2011, 160(1): 1316-1321. 

　　8. Wei Dongbin, Lin Zhifen, Kameya Takashi, Urano Kohei, Du Yuguo. Application of biological safety index in two Japanese watersheds using a bioassay battery. Chemosphere 2008, 72(9): 1303-1308. 

　　9. Wei Dongbin, Kameya Takashi, Urano Kohei. Environmental management of pesticidal POPs in China: Past, present and future. Environment International 2007, 33: 894-902. 

　　10. Wei Dongbin, Kisuno Akira, Kameya Takashi, Urano Kohei, A new method for evaluating biological safety of environmental water with algae, daphnia and fish toxicity ranks. Science of the Total Environment 2006, 371(1-3): 383-390. 

　　1. National Natural Science Foundation of China: Toxicity-directed identification and formation mechanisms of by products with high toxicity in swimming pool water (21577154) 

　　2. National Natural Science Foundation of China: The toxicity transformation mechanism of UV-filters in photo induction - chlorination disinfection system (21377143) 

　　3. National Natural Science Foundation of China: Toxicity transformation mechanism of typical tetracyclines in water-manganese oxide system (21077123) 

　　4. National Natural Science Foundation of China: Transformation mechanisms of typical UV filters and risk assessment during chlorination disinfection treatment (20877090) 

　　5. National High-tech R&D Program (863 Program): Safety asseessment and control techniques for reuses of reclaimed water (2013AA0652051) 

　　6. National High-tech R&D Program (863 Program): Risk controlling techniques for reuses of reclaimed water (2008AA062502) 

　　7. National High-tech R&D Program (863 Program): Enhanced direct injection recharge techniques of groundwater with reclaimed water on the view of safety guaranteeing of water quality (2007AA06Z338) 

　　8. National Key Technologies R&D Program: Integration techniques and demonstration on guaranteeing of water quality in landscape water system in Olympic Park (2007BAC22B02) 

　　9. Major Science & Technology Program for Water pollution Control and treatment: Dynamic controlling techniques and demonstration of priority pollutants in Dongjiang River (2008ZX07211-008) 

　　10. Major Science & Technology Program for Water pollution Control and treatment: Key techniques for evaluating ecological risk of water pollution in Songhua River (2009ZX07207-002)