方舟 助理研究员

来源:生物地球化学与环境修复团队发布时间:2016-07-24编辑:陈焱山



  


方舟  

助理研究员

邮箱:shaka-fz@163.com    

办公室:待定 

电话:025-89680637 

  

  





教育背景  

2012/09-2017/09    东南大学能源与环境学院              环境科学与工程专业          工学博士 

2017/09-2010/07    南京林业大学化学工程学院         环境工程专业                       工学硕士 

2012/09-2016/06    南京林业大学化学工程学院         环境工程专业                       工学学士

  


工作经历   

2017.09-至今   南京大学环境学院 助理研究员  



研究兴趣   

水体有机污染物监测的梯度扩散薄膜技术  

有机污染物的环境行为与效应  

微生物燃料电池处理难降解有机废水  


发表论文  

[13] Fang, Z. ; Song, H.L.; Cang, N.; Li, X.N., 2013. Performance of microbial fuel cell coupled constructed wetland system for decolorization of azo dye and bioelectricity generation. Bioresource Technol. 144, 165-171.  

[12] Fang, Z. ; Song, H.L.; Cang, N.; Li, X.N., 2015. Electricity production from Azo dye wastewater using a microbial fuel cell coupled constructed wetland operating under different operating conditions. Biosens. Bioelectron. 68, 135-141.  

[11] Fang Z. ;Song. H.L.; Yu, R.; Li. X.N., 2016. A microbial fuel cell-coupled constructed wetland promotesdegradation of azo dye decolorization products. Ecol. Eng. 94, 455-463. SCI 收录: IF=2.740 

[10] Fang, Z. ; Cheng. S.C.; Cao, X.; Wang, H.; Li, X.N., 2017. Effects of electrode gap and wastewater condition on the performance of microbial fuel cell coupled constructed wetland. Environmental Technology. 38(8), 1051-1060. SCI 收录:IF=1.760 

[9]  Fang, Z. ; Cheng. S.C.;  Wang, H.;  Cao, X.; Li, X.N., 2017. Feasibility study of simultaneous azo dye decolorization and bioelectricity generation by microbial fuel cell-coupled constructed wetland: substrate effects. RSC Advances. 7, 16542–16552. SCI 收录:IF=3.289 

[8] Fang, Z.  Cao, X.; Li, X.X; Wang, H.; Li, X.N., 2017. Electrode and azo dye decolorization performance in microbialfuel-cell-coupled constructed wetlands with different electrode size during long-term wastewater treatment. Bioresource Technol. 238,, 450~460. SCI 收录:IF=4.917 

[7] Li, T.T.; Fang Z. ;Yu. R.; Cao, X. Song, H.L.; Li. X.N., 2016. The performance of the microbial fuel cell coupled constructed wetland system and the influence of anode bacterial community. Environmental Technology. 13(37):1-17.  

[6] Wang, H.; Song, H.L.; Yu, R.; Cao, X.; Fang, Z. ; Li. X.N., 2016. New process for copper migration by bioelectricity generation in soil microbial fuel cells. Environmental Technology. Environmental Science and Pollution Research, 23:13147-13154.  

[5] Wang H.; Yi S.Y.; Cao X.; Fang Z. ; Li X.N., 2017. Reductive dechlorination of hexachlorobenzene subjected to several conditions in a bioelectrochemical system. Ecotoxicology and Environmental Safety, 139: 172–178.  

[4] Cao X.; Yu C.Y.; Wang H.; Fang Z. ; Li X.N., 2016. Simultaneous degradation of refractory organic pesticide and bioelectricity generation in a soil microbial fuel cell with different conditions. Environmental Technology, 1-17.  

[3] Cao X.; Wang H.; Li X.Q.; Fang Z. ; Li X.N., 2017. Enhanced degradation of azo dye by a stacked microbial fuel cell-biofilm electrode reactor coupled system, Bioresource Technology, 227:273-278. SCI收录:IF=4.917  

[2] Cao X.; Gu F.; Wang H.; Fang Z. ; Li X.N., 2017. The degradation of azo dye with different cathode and anode structures in biofilm electrode reactors. RSC Advances, 7, 16854.  

[1] Cao X.; Li X.Q.; Wang H.; Zhang J.R.; Fang Z. ; Li X.N., 2017. Effects of Electrical Stimulation on the Degradation of Azo Dye in Three-Dimensional Biofilm Electrode Reactors. Water. 9, 301.  

  

主持/参与科研项目  

[1] 国家自然科学基金面上项目(21277024): 人工湿地型微生物燃料电池与生物膜电极耦合系统去除难降解有机物的效能及机理 2012/01-2016/12  已结题 参与