项目经历: 1. 欧盟EPSRC “Frontier Engineering (EP/K038656/1)” & “Frontier Engineering: Progression Grant (EP/S03305X/1)”(参与) 2. 电解条件下典型驱虫剂在人工湿地基质区域的吸附行为与机理,山东省自然科学基金,No. ZR202111030026(主持) 3. 国家水体污染控制与治理科技重大专项子课题, No. 2014ZX07101-012(参与) 4. 流域尺度抗生素环境行为与抗性基因污染特征子课题, 国家自然科学基金, No. 21210008(参与) 5. 典型抗药基因在污泥厌氧消化过程中的行为特征及分子机制, 国家自然科学基金, No. 21277117(参与) 6. 水环境中微量污染物——药物与个人护理品的检测与风险研究, 浙江省科技厅公益技术研究社会发展项目, No. 2012C23043(参与)
代表性科研成果: 1. Li J, Zhou Q, Campos L. Removal of Selected Emerging PPCP Compounds using Greater Duckweed (Spirodela polyrhiza) Based Lab-scale Free Water Constructed Wetland. Water Research, 2017, 126: 252-261. 2. Li J, Han X, Brandt B W, et al. Physico-chemical and biological aspects of a serially connected lab-scale constructed wetland-stabilization tank-GAC slow sand filtration system during removal of selected PPCPs. Chemical Engineering Journal, 2019, 369:1109-1118. 3. Li J, Zhou Q, Campos L. The Application of GAC Sandwich Slow Sand Filtration to Remove Pharmaceutical and Personal Care Products. Science of the Total Environment, 2018, 635: 1182-1190. 4. Li J, Liu Y, Campos L, Marc-Olivier Coppens. Increased E. coli bio-adsorption resistance of microfiltration membranes, using a bio-inspired approach. Science of the Total Environment, 2020, 141777. 5. Li J, Cheng W, Xu L, et al. Antibiotic-resistant genes and antibiotic-resistant bacteria in the effluent of urban residential areas, hospitals, and a municipal wastewater treatment plant system. Environmental Science and Pollution Research, 2015, 22(6): 4587-4596. 6. Li J, Cheng W, Xu L, et al. Occurrence and removal of antibiotics and the corresponding resistance genes in wastewater treatment plants: effluents’ influence to downstream water environment. Environmental Science and Pollution Research, 2016, 23(7): 6826-6835. 7. Li J, Campos L, Zhang L, and Xie W. Sand and sand-GAC filtration technologies in removing PPCPs: A review. Science of The Total Environment, 2022, 848: 157680. 8. Li J, Li C, dos Santos ND, Teixeira LA, Campos LC. Removal of diethyltoluamide, paracetamol, caffeine and triclosan from natural water by photo-Fenton process using powdered zero-valent iron. Journal of Water Process Engineering. 2022; 48:102907. 9. Cui E, Zhou Z, Gao F, Chen H, & Li J*. Roles of substrates in removing antibiotics and antibiotic resistance genes in constructed wetlands: A review. Science of The Total Environment, 2022, 160257. 10. Cheng W, Li J, Wu Y, et al. Behavior of antibiotics and antibiotic resistance genes in eco-agricultural system: a case study. Journal of Hazardous Materials, 2016, 304: 18-25. 11. Xu L, Campos L C, Li J, et al. Removal of antibiotics in sand, GAC, GAC sandwich and anthracite/sand biofiltration systems. Chemosphere, 2021: 130004. 12. Zhu S, Chen H, Li J. Sources, distribution and potential risks of pharmaceuticals and personal care products in Qingshan Lake basin, Eastern China. Ecotoxicology and Environmental Safety, 2013, 96: 154-159. 13. Zhao K, Zhang B, Li J, et al. The autotrophic community across developmental stages of biocrusts in the Gurbantunggut Desert. Geoderma, 2021, 388: 114927. 14. Xu, L., Qian, Y., Su, C., Cheng, W., Li, J., Wahlqvist, M. L., & Chen, H. Prevalence of bacterial resistance within an eco-agricultural system in Hangzhou, China. Environmental Science and Pollution Research, 2016, 23(21), 21369-21376. 15. Leng L, Xu X, Wei L, Fan L, Huang H, Li J, Lu Q, Li J, Zhou W. Biochar stability assessment by incubation and modelling: Methods, drawbacks and recommendations. Science of the Total Environment. 2019, 664: 11-23. 16. Leng, L., Zhang, J., Xu, S., Xiong, Q., Xu, X., Li, J. and Huang, H., 2019. Meat & bone meal (MBM) incineration ash for phosphate removal from wastewater and afterward phosphorus recovery. Journal of Cleaner Production, 238, 117960. |