2023/06至今，永利娱高ylg060net，副研究员 

　　2019/07-2023/05，泉州南京大学环保产业研究院，院长助理  

　　2019/01-2019/06，美国田纳西大学土木与环境工程系，博士后  

　　2015/08-2018/12，美国田纳西大学，土木与环境工程系，博士，导师：何强教授  

　　2013/08-2014/12，南京大学环境学院，研究助理  

　　2010/09-2013/07，南京大学，环境学院，硕士，导师：季荣教授  

　　2006/09-2010/07，山东大学，环境科学与工程学院，学士  

　　土壤微生物生态与技术  

　　土壤病毒群落演替与功能发挥  

　　新型有机污染物降解转化  

　　水处理技术、固废资源化技术等开发与应用 

　　1.Li, P., Liang, X. L., Shi, R. J., Wang, Y. F., Han, S. Q., Zhang, Y. (2023) Unraveling the functional instability of bacterial consortia in crude oil degradation via integrated co-occurrence networks. Frontiers in Microbiology. 14.  

　　2.Zhou, Y., Jiang, B. Q., Wang, Y. F., Sun, F. F., Ji, R. (2022) Effect of Cu²⁺ on the Laccase-Inducted Formation of Non-Extractable Residues of Tetrabromobisphenol A in Humic Acids. Bulletin of Environmental Contamination and Toxicology. 109: 1162–1166.  

　　3.Zhou, Y., Sun, F. F., Wu, X., Cao, S. Q., Guo, X. R., Wang, Q. L., Wang, Y. F., Ji, R. (2022) Formation and Nature of Non-extractable Residues of Emerging Organic Contaminants in Humic Acids Catalyzed by Laccase. Bulletin of Environmental Contamination and Toxicology. 109: 1162–1166.  

　　4.Chen, S., Wang, Y. F., Cheng, H. C., Hazen, T. C., He, C. G., He, Q. (2021) Identification of Propionate-Degrading Microbial Populations in Methanogenic Processes for Waste Treatment: Methanosaeta and Methanoculleus. Environmental Engineering Science. 29:3.  

　　5.Wang, Y. F., Tian, L. L., Wang, L. H., Yan, X. Y., Shan, J., Ji, R. (2021) Degradation, Transformation, and Non-extractable Residue Formation of Nitrated Nonylphenol Isomers in an Oxic Soil. Environmental Pollution. 289: 117880.  

　　6.Wang, Y. F., Shan, J., Zhao, Y. Y., Li, F. J., Corvini, P. F.-X., Ji, R. (2020) Degradation and Transformation of Nitrated Nonylphenol Isomers in Activated Sludge under Nitrifying and Heterotrophic Conditions. Journal of Hazardous Materials. 393: 122438.  

　　7.Wang, Y. F., Nie, Q. K., Huang, B. S., Cheng, H. C., Wang, L., He, Q. (2020) Feasibility of Bauxite Residue for the Removal of Ciprofloxacin in the Aqueous Phase. Journal of Cleaner Production. Journal of Cleaner Production 253: 120049.  

　　8.Liu, X. L.; Gharasoo, M.; Shi, Y.; Sigmund, G.; H ffer, T.; Duan, L.; Wang, Y. F.; Ji, R.; Hofmann, T.; Chen, W. (2020) Key Physicochemical Properties Dictating Gastrointestinal Bioaccessibility of Microplastics-Associated Organic Xenobiotics: Insights from a Deep Learning Approach. Environmental Science & Technology 54(19): 12051–12062.  

　　9.Gu, J. Q.; Chen, X.; Wang, Y. F.; Wang, L. H.; Szlavecz, K.; Ma, Y. N.; Ji, R.  (2020) Bioaccumulation, physiological distribution, and biotransformation of tetrabromobisphenol a (TBBPA) in the geophagous earthworm Metaphire guillelmi – hint for detoxification strategy. Journal of Hazardous Materials. 388: 122027.  

　　10.Yang, T. X., Wang, Y. F., Sheng, L. X., He, C. G., Sun, W., He, Q. (2020) Enhancing Cd(II) Sorption by Red Mud with Heat Treatment: Performance and Mechanisms of Sorption. Journal of Environmental Management. 255: 109866.  

　　11.Wang, Y. F., He, Q. Microbial Interactions in Anaerobic Wastewater Treatment. (2019) Encyclopedia of Water: Science, Technology, and Society. （科研专著）  

　　12.Chen, X., Gu, X. Y., Zhao, X. P., Wang, Y. F., Pan, Y. A., Ma, X., Wang, X. R., Ji, R. (2019) Species-Dependent Effects of Earthworms on the Eates and Bioavailability of Tetrabromobisphenol A and Cadmium Coexisted in Soils. Science of the Total Environment 658: 1416-1422.  

　　13.Xu, S., Wang, Y. F., Yang, L. Y., Ji, R., Miao, A. J. (2018). Transformation of Tetrabromobisphenol A by Rhodococcus jostii RHAl: Effects of Heavy Metals. Chemosphere 196: 206-213.  

　　14.Yang, T. X., Sheng, L. X., Wang, Y. F., Wyckoff, K. N., He, C. G., He, Q. (2018). Characteristics of Cadmium Sorption by Heat-Activated Red Mud in Aqueous Solution. Scientific Reports.  

　　15.Wang, Y. F., Xu, J., Shan, J., Ma, Y. N., Ji, R. (2017). Fate of Phenanthrene and Mineralization of Its Non-Extractable Residues in an Oxic Soil. Environmental Pollution 224: 377-383.  

　　16.Wang, S. F., Sun, F. F., Wang, Y. F., Wang, L. H., Ma, Y. N., Kolvenbach, B. A., Corvini, P. F. X., Ji, R. (2017). Formation, Characterization, and Mineralization of Bound Residues of Tetrabromobisphenol A (TBBPA) in Silty Clay Soil under Oxic Conditions. Science of the Total Environment 599: 332-339.  

　　17.Ma, Y. N., Zhao, Y. Y., Wang, Y. F., Li, X. Z., Sun, F. F., Corvini, P. F. X., Ji, R. (2017). Effects of Cu²⁺ and Humic acids on Degradation and Fate of TBBPA in Pure Culture of Pseudomonas sp Strain CDT. Journal of Environmental Sciences 62: 60-67.  

　　18.Chen, X., Gu, J. Q., Wang, Y. F., Gu, X. Y., Zhao, X. P., Wang, X. R., Ji, R. (2017). Fate and O-Methylating Detoxification of Tetrabromobisphenol A (TBBPA) in Two Earthworms (Metaphire guillelmi and Eisenia fetida). Environmental Pollution 227: 526-533.  

　　19.Wang, S. F., Cao S. Q., Wang, Y. F., Jiang, B. Q., Wang, L. H., Sun, F. F., Ji, R. (2016). Fate and Metabolism of the Brominated Flame Retardant Tetrabromobisphenol A (TBBPA) in Rice Cell Suspension Culture. Environmental Pollution 214: 299-306.  

　　20.Tong, F., Gu, X. Y., Gu, C., Xie, J. Y., Xie, X. C., Jiang, B. Q., Wang, Y. F., Ertunc, T., Schaeffer, A., Ji, R. (2016) Stimulation of Tetrabromobisphenol A Binding to Soil Humic Substances by Birnessite and the Chemical Structure of the Bound Residues. Environmental Science & Technology 50(12): 6257-6266.  

　　21.Shan, J., Wang, Y. F., Gu, J. Q., Zhou, W. Q., Ji, R., Yan, X. Y. (2014). Effects of Biochar and the Geophagous Earthworm Metaphire guillelmi on Fate of ¹⁴C-Catechol in an Agricultural Soil. Chemosphere 107: 109-114.  

　　22.Shan, J., Wang, Y. F., Wang, L. H., Yan, X. Y., Ji, R. (2014). Effects of the Geophagous earthworm Metaphire guillelmi on Sorption, Mineralization, and Bound-Residue Formation of 4-Nonylphenol in an Agricultural Soil. Environmental Pollution 189: 202-207.  

　　23.Wang, J., Wang, Y. F., Wang, T., Cui, K., Wang, L. H., Ji, R. (2014). Synthesis and Characterization of ¹⁴C-Labelled Sulfate Conjugates of Steroid Oestrogens. Journal of Labelled Compounds & Radiopharmaceuticals 57(7): 470-476.  

　　24.Liu, J., Wang, Y. F., Jiang, B. Q., Wang, L. H., Chen, J. Q., Guo, H. Y., Ji, R. (2013). Degradation, Metabolism, and Bound-Residue Formation and Release of Tetrabromobisphenol A in Soil during Sequential Anoxic-Oxic Incubation. Environmental Science & Technology 47(15): 8348-8354.  

　　25.Shan, J., Liu, J., Wang, Y. F., Yan, X. Y., Guo, H. Y., Li X. Z., Ji, R. (2013). Digestion and Residue Stabilization of Bacterial and Fungal Cells, Protein, Peptidoglycan, and Chitin by the Geophagous Earthworm Metaphire guillelmi. Soil Biology & Biochemistry 64: 9-17.  

　　授权专利： 

　　1.一种可移动式双氧水制备装置。实用新型，ZL202223022220.3。授权公告日：2023.05.30。 

　　2.一种水面移动式除藻装置。实用新型，ZL202223015242.7。授权公告日：2023.03.14。  

　　3.一种从离子型稀土矿中提纯稀土的系统。实用新型，ZL202223266604.X。授权公告日：2023.03.13。  

　　4.基于牡蛎壳的黑臭水体底泥原位修复材料及其修复方法。发明专利，ZL202010691189.9。授权公告日：2022.09.27。  

　　5.一种脱氮除磷发泡填料及其制备方法。发明专利，ZL202011431903.7。授权公告日：2022.09.27。  

　　6.一种绿色高效抑制二氧化硅成垢的羟乙基纤维素改性阻垢剂及其制备方法。发明专利，ZL202111232363.4。授权公告日：2022.06.21

　　7.一种基于硫-铁自养反硝化深度脱氮除磷装置。实用新型，ZL202123268642.4。授权公告日：2022.06.07。  

　　8.一种处理高浓度污废水的处理设备。实用新型，ZL202122677674.3。授权公告日：2022.05.06。  

　　9.一种生活污水和厨余垃圾的共处理设备。实用新型，ZL202122675694.7。授权公告日：2022.05.06。  

　　10.一种快速制备载银活性炭的方法。发明专利，ZL202010722332.6。授权公告日：2022.02.22。  

　　11.一种基于零价铁的除磷装置。实用新型，ZL202022664284.8。授权公告日：2021.09.07。  

　　12.一种基于活性炭三维电极法的印染废水处理装置。实用新型，ZL202023018435.9。授权公告日：2021.09.07。  

　　13.一种连续式电解装置。实用新型，ZL202022333706.3。授权公告日：2021.08.24。  

　　14.一种基于电动力学强化脱氮的人工湿地。实用新型，ZL202021270349.4。授权公告日：2021.05.11。  

　　15.一种基于硫自养反硝化强化脱氮装置。实用新型，ZL202021270318.9。授权公告日：2021.04.06。  

　　16.一种¹⁴C标记聚苯乙烯（PS）的合成方法。发明专利，ZL201510260827.0。授权公告日：2017.10.20。  

　　17.一种标记的雌激素硫酸盐共轭物及其制备方法。发明专利，ZL201410158907.0。授权公告日：2016.04.20。