团队介绍

环境污染与控制化学研究团队围绕松花江、辽河流域水环境污染开展研究工作40余年，主要从事环境污染化学、污染控制化学及环境毒理化学三个方向的科学研究工作，是一支以中青年骨干为主、专业能力突出的学术创新型团队。本团队以基础研究为重点，以技术开发为突破，提高解决区域重大环境问题的创新能力并提供必要的科技支撑。团队共有教授3人（已退休2人）、副教授5人、讲师2人、师资博士后1人。近五年，承担国家及省部级课题20余项，发表SCI论文120余篇。

现承担国家级科研项目5项，包括国家自然科学基金重点项目“基于毒性效应和风险趋势引导的水环境典型抗生素污染特征及调控机制研究”（主持人：曲蛟）以及国家自然科学基金面上项目“表层海水中新型卤代污染物光化学生成机理研究”（主持人：张亚南）、“基于微流控芯片的多指标电化学细胞传感平台研究新型污染物的毒性效应”（主持人：朱晓琳）、“典型液晶化合物的水相光化学转化机制及光致毒性研究”（主持人：李超）等。

The team of Environmental Pollution and Control Chemistry has been engaged in the research of water environmental pollution in the Songhua River and Liaohe River basins for more than 40 years. The team is mainly engaged in the scientific research of environmental pollution chemistry, pollution control chemistry and environmental toxicology. It is an academic innovative team with young and middle-aged backbone and outstanding professional ability. The team focuses on basic research, takes technological development as a breakthrough, improves the innovation ability to solve regional major environmental problems and provides necessary scientific and technological support. There are three professors (two retired), five associate professors, two lecturers and one postdoctoral faculty in this team. In the past five years, it has carried out over 20 national and provincial projects and published more than 120 SCI indexed papers.

Currently, the team has undertaken five national scientific research projects, including the key program of National Natural Science Foundation of China "Directed study on pollution characteristic and regulatory mechanism of typical antibiotics in aqueous environment based on toxic effect and risk trend" (Leader: Qu, J.) and the general program of National Natural Science Foundation of China "Photochemical generation mechanisms of emerging halogenated pollutants in surface seawater" (Leader: Zhang Yanan), "Study on the toxic effects of emerging contaminants using a multi-index electrochemical cell sensing platform based on microfluidic chip" (Leader: Xiaolin Zhu), "Photochemical transformation mechanism and photo-induced toxicity of typical liquid crystal compounds in water" (Leader: Li, C.), et al.

代表性成果

1.污染物电化学传感检测及高效光电降解技术

利用具有优异电学、光学性质的新型纳米材料，开展电化学传感及光电降解研究工作，实现了化学污染物的毒性灵敏识别、快速定量检测和高效催化降解以及细菌的快速灭活。

2.典型化学污染物的环境行为及风险评价

针对东北区域水环境化学污染问题，开展典型化学污染物的环境迁移转化行为、降解副产物的毒性风险评价等研究，揭示污染物环境行为的反应机制、毒性变化机理及风险趋势规律。

3.污染物毒性预测和毒理学机制

采用实验、计算模拟和机器学习等手段，围绕环境健康风险防范，开展化学品及新污染物环境归趋和毒性研究，实现化学品危害性与风险性的高效预测，揭示污染物的毒理学机制。

代表性论文

1. Zhang, Y. N.; Cheng, F. Y.; Zhang, T. T.; Li, C.; Qu, J.; Chen, J. W.; Peijnenburg W. J. G. M. Dissolved organic matter enhanced the aggregation and oxidation of nanoplastics under simulated sunlight irradiation in water, Environ. Sci. Technol. 2022, 56(5): 3085-3095.

2. Zhou, Y. J.; Cheng, F. Y.; He, D. Y.; Zhang, Y. N.; Qu, J.; Yang, X.; Chen, J. W.; Peijnenburg W. J. G. M. Peijnenburg. Effect of UV/chlorine treatment on photophysical and photochemical properties of dissolved organic matter, Water Res. 2021, 192: 116857.

3. Zhang, Y. N.; Zhang, T. T.; Liu, H. Y.; Qu, J.; Li, C.; Chen, J. W.; Peijnenburg W. J. G. M. Simulated sunlight-induced inactivation of tetracycline resistant bacteria and effects of dissolved organic matter, Water Res. 2021, 185: 116241.

4. He, D. Y.; Yang, H.; Jin, D. X.; Qu. J.; Yuan, X.; Zhang, Y. N.; Huo, M. X.; Peijnenburg W. J. G. M. Rapid water purification using modified graphitic carbon nitride and visible light, Appl. Catal. B-Environ. 2021, 285: 119864.

5. Guan, J. N.; Qi, K.; Wang, J. Y.; Wang, W. W.; Wang, Z. R.; Lu, N.; Qu, J. Microplastics as an emerging anthropogenic vector of trace metals in freshwater: Significance of biofilms and comparison with natural substrates, Water Res. 2020, 184: 116205.

6. Sun, J. Q.; Yuan, W. L.; Tian, R.; Wang, P. Y.; Zhang, X. P.; Li, X. W. Rhodium(III)-catalyzed asymmetric [4+1] and [5+1] annulation of arenes and 1,3-enynes: a distinct mechanism of allyl formation and allyl functionalization, Angew. Chem. Int. Ed. 2020, 59: 22706-22713.

7. Zhu, X. L.; Wu, G. L.; Xing, Y.; Wang, C. Z.; Yuan, X.; Li, B. K. Evaluation of single and combined toxicity of bisphenol A and its analogues using a highly-sensitive micro-biosensor, Journal of Hazardous Materials, 2020, 381: 120908.

8. Li, C.; Zheng, S. S.; Li, T. T.; Chen, J. W.; Zhou, J. H.; Su, L. M.; Zhang, Y. N.; Crittenden J. C., Zhu, S. Y.; Zhao, Y. H. Quantitative structure-activity relationship models for predicting reaction rate constants of organic contaminants with hydrated electrons and their mechanistic pathways, Water Res. 2019, 151: 468-477.

9. Li, C.; Wei, G. L.; Chen, J. W.; Zhao, Y. H.; Zhang, Y. N.; Su, L. M.; Qin, W. C. Aqueous •OH radical reaction rate constants for organophosphorus flame retardants and plasticizers: Experimental and modeling studies, Environ. Sci. Technol. 2018, 52(5): 2790-2799.

10. Li C., Chen J. W., Xie H. B., Zhao Y. H., Xia D. M., Xu T., Li X. H., Qiao X. L. Effects of atmospheric water on •OH-initiated oxidation of organophosphate flame retardants: A DFT investigation on TCPP. Environ. Sci. Technol. 2017, 51(9): 5043-5051.