李凤祥 - 南开大学 - 环境科学与工程学院

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李凤祥副教授收藏完善纠错
南开大学环境科学与工程学院
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个人简介

教育背景 2005.09-2009.07 南开大学环境科学与工程专业获博士学位 2003.09-2005.07 东北师范大学环境工程专业获硕士学位 1997.09-2001.07 吉林建筑大学给水排水工程专业获学士学位科研教学经历 2020.01-至今南开大学环境科学与工程学院，副教授 2009.07-2019.12 南开大学环境科学与工程学院，讲师 2007.09-2008.10 美国康涅狄格大学市政与环境工程系环境工程专业，首届联合培养博士生科研项目 [1] 国家自然科学基金面上项目，抗生素与重金属复合污染土壤氧化还原同步原位生态修复及机理，2022.1-2025.12，负责人 [2] 横向课题，盐碱地雨水综合利用关键技术开发，2021，负责人 [3] 国家重点研发计划，油田开采区土壤污染控制与修复技术集成示范. 2019.12-2023.11，子课题负责人 [4] 横向项目，综合管廊真空排水技术研究，2019.6-2019.12，负责人 [5] 横向项目，综合管廊真空排水系统，2017.5-2017.12，负责人 [6] 国家自然科学基金面上项目，底泥石油污染生物电化学原位生态修复及机理，2016.1-2019.12，负责人 [7] 天津市自然科学基金，抗生素废水能源化处理及其抗性基因风险抑制机理，2016.4-2019.3，负责人 [8] 横向项目，海绵城市结构性透水铺面技术，2015.11-2018.11，负责人 [9] 天津市自然科学基金，基于生物耦合产氢产电的废水Fenton氧化与能源化研究，2011.4-2014.3，负责人 [10] 环保公益性行业科研专项子课题，我国抗性基因污染分级、分区以及跨行业的控制策略研究，2013.1-2015.12，负责人 [11] 国家水体污染控制与治理科技重大专项，松花江水生态功能三级四级分区研究，2012.09-2015.12，主要完成人 [12] 中央高校基本科研业务费“青年教师及海外留学归国人员研究资助项目”，基于电能和氢能耦合回收方式的废水能源化及其产能机制研究，2010.6-2012.5，负责人 [13] 国家水体污染控制与治理科技重大专项，松花江水生态功能一级二级分区研究，2009.9-2010.12，主要完成人著作 [1] 《基于环境生物电化学的废物能源化技术》，北京：化学工业出版社，2020, 主编 [2] 《现代环境生物技术与应用》，十三五规划教材，北京：中国石化出版社，2019，参编 [3] 《松花江流域水生态功能分区研究》，北京：科学出版社，2016，参编 [4] 《资源循环科学与工程概论》，资源循环科学与工程专业教材，北京：化学工业出版社，2013，参编 [5] 《松花江流域生态演变与鱼类生态》，天津：南开大学出版社，2013，参编授权发明专利 [1] 周启星，赵倩楠，李凤祥一种炭黑羟基氧化铁阴极生物电芬顿处理典型芳烃类等石油污染废水并同步产电的方法ZL201810434786.6 2021.01.08 [2] 周启星，赵倩楠，李凤祥一种利用电化学装置处理磺胺类废水并同步制氢的方法ZL201810434728.3 2020.11.03 [3] 华涛，陈红辉，周启星，李凤祥一种分离式文丘里管式混合电催化臭氧化方法与装置ZL201710376355.4 2020.08.19 [4] 李凤祥，周启星，Baikun Li. 将有机废水能源化的微生物燃料电池接种和驯化启动方法200910070694.5 2011.11.09 [5] 李凤祥，周启星，华涛.污泥减量型生物膜叠球填料及制备方法与应用, 发明专利, 200710057283.3 2009.09.02 [6] 李凤祥，华涛，周启星.用污泥减量型生物膜叠球填料工艺处理废水的方法, 发明专利, 200710057284.8 2009.07.29 荣誉与奖励 2020年获南开大学2020届“本科生优秀毕业论文”指导教师 2020年指导本科生获“国家级大学生创新创业训练计划”南开大学一等奖 2019年指导本科生获“天津市大学生创新创业训练计划”南开大学优秀奖 2019年协助指导博士生和硕士获得国家奖学金和南开大学公能奖学金一等奖 2018年获发明创业成果一等奖（第四完成人，负责微生物修复部分） 2016年指导本科生获“天津市大学生创新创业训练计划”南开大学二等奖 2015年获天津技术发明奖一等奖（第四完成人，负责污水处理剩余污泥减量化及能源化部分） 2015年获南开大学学生社会实践优秀指导教师

研究领域

污染控制及资源化，环境微生物，环境纳米材料

近期论文

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[1] Haonan Wang, Peng Chen, Shixuan Zhang, Jiwei Jiang, Tao Hua, Fengxiang Li*. Degradation of pyrene using single-chamber air-cathode microbial fuel cells: electrochemical parameter and bacterial community changes. Science of the Total Environment. 2022, 804:150153 [2] Jiwei Jiang, Shixuan Zhang, Shengnan Li, Wenlu Zeng, Fengxiang Li*, Wei Wang. Magnetized manganese-doped watermelon rind biochar as a novel low-cost catalyst for improving oxygen reduction reaction in microbial fuel cells. Science of the Total Environment. 2022,802:149989 [3] Shengnan Li, Jiwei Jiang, Shih-Hsin Ho, Fengxiang Li*, Wenlu Zeng. Bimetallic nitrogen-doped porous carbon derived from ZIF-L&FeTPP@ZIF-8 as electrocatalysis and application for antibiotic wastewater treatment. Separation and Purification Technology. 2021,276:119259 [4] Shixuan Zhang, Jiwei Jiang, Haonan Wang, Fengxiang Li*, Tao Hua*, Wei Wang. A review of microbial electrosynthesis applied to carbon dioxide capture and conversion: The basic principles, electrode materials, and bioproducts. Journal of CO2 Utilization. 2021,51:101640 [5] Cholnam Ri, Jingchun Tang*, Honghong Lyu, Fengxiang Li*. Enhanced microbial reduction of aqueous hexavalent chromium by Shewanella oneidensis MR-1 with biochar as electron shuttle. Journal of Environmental Sciences. 2021, doi:10.1016/j.jes.2021.05.023 [6] Ping Chen, Xiaoyan Guo, Shengnan Li, Fengxiang Li*. A review of the bioelectrochemical system as an emerging versatile technology for reduction of antibiotic resistance genes. 2021, Environment International. 2021,156:106689 [7] Jiwei Jiang, Haonan Wang, Shixuan Zhang, Wenlu Zeng, Fengxiang Li*. The influence of external resistance on the performance of microbial fuel cell and the removal of sulfamethoxazole wastewater. Bioresource Technology. 2021,336:125308 [8] Shengnan Li, Xuya Zhu, Hang Yu, Xizi Wang, Xiaqing Liu, Hui Yang, Fengxiang Li*, Qixing Zhou. Simultaneous sulfamethoxazole degradation with electricity generation by microbial fuel cells using Ni-MOF-74 as cathode catalysts and quantification of antibiotic resistance genes. Environmental Research. 2021,197:111054 [9] Tao Hua, Haonan Wang, Shengnan Li, Peng Chen, Fengxiang Li*, Wei Wang. Electrochemical performance and response of bacterial community during phenanthrene degradation in single-chamber air-cathode microbial fuel cells. Environmental Science and Pollution Research. 2021, DOI:10.1007/s11356-020-12226-5 [10] Shengnan Li, Shih-Hsin Ho, Tao Hua, Qixing Zhou, Fengxiang Li*, Jingchun Tang. Sustainable biochar as an electrocatalysts for the oxygen reduction reaction in microbial fuel cells. Green Energy and Environment. 2021, DOI:10.1016/j.gee.2020.11.010 [11] Brim Stevy Ondo, Shengnan Li, Qixing Zhou, Fengxiang Li*. Sources of antibiotic resistant bacteria (ARB) and antibiotic resistance genes (ARGs) in the soil: A review of the spreading mechanism and human health risks. Reviews of Environmental Contamination and Toxicology. 2021, DOI:10.1007/398_2020_60. [12] Wendan Xue, Qixing Zhou, Fengxiang Li*.The feasibility of typical metal–organic framework derived Fe, Co, N co-doped carbon as a robust electrocatalyst for oxygen reduction reaction in microbial fuel cell. Electrochimica Acta. 2020, (355):136775 [13] Brim Stevy Ondo, Shengnan Li, Qixing Zhou, Fengxiang Li*. Simultaneous removal and high tolerance of norfloxacin with electricity generation in microbial fuel cell and its antibiotic resistance genes quantification. Bioresource Technology. 2020，304:122984 [14] Shengnan Li, Tao Hua, Chungshin Yuan, Baikun Li, Xuya Zhu, Fengxiang Li*, Degradation pathways, microbial community and electricity properties analysis of antibiotic sulfamethoxazole by bio-electro-Fenton system. Bioresource Technology. 2020, 298:122501 [15] Shengnan Li, Yanwanjing Liu, Runlei Ge, Song Yang, Yanxia Zhai, Tao Hua, Brim Stevy Ondon, Qixing Zhou, Fengxiang Li*. Microbial electro-Fenton: A promising system for antibiotics resistance genes degradation and energy generation. Science of the Total Environment. 2020, 699:134160. [16] Wendan Xue, Qixing Zhou, Fengxiang Li*. Bacterial community changes and antibiotic resistance gene quantification inmicrobial electrolysis cells during long-term sulfamethoxazole treatment. Bioresource Technology, 2019，294:122170 [17] Tao Hua, Shengnan Li, Fengxiang Li*, Haonan Wang. Treatment of Naphthalene by Microbial Electrochemical System and the Analysis of Microbial communities. Chemical Journal of Chinese Universities. 2019, 40（9）:1964-1971 [18] Wendan Xue, Qixing Zhou,Fengxiang Li*, Brim Stevy Ondon. Zeolitic imidazolate framework-8 (ZIF-8) as a robust catalyst for oxygen reduction reaction in microbial fuel cells. Journal of Power Sources. 2019, 423（31）:9-17 [19] Tao Hua, Shengnan Li, Fengxiang Li*, Brim Stevy Ondon,Yanwanjing Liu, Haonan Wang. Degradation performance and microbial community analysis of microbial electrolysis cells for erythromycin wastewater treatment. Biochemical Engineering Journal. 2019, 146（15）:1-9 [20] Tao Hua, Shengnan Li, Fengxiang Li*, Qixing Zhou, Brim Stevy Ondon. Microbial electrolysis cell as an emerging versatile technology: a review on its potential application, advance and challenge. Journal of Chemical technology and biotechnology. 2019, 94（6）:1697-1711 [21] Bo Zhou, Yun Li, Jinwu Bai, Xuemin Li, Fengxiang Li*, Lu Liu. Controlled synthesis of rh-In2O3 nanostructures with different morphologies for efficient photocatalytic degradation of oxytetracycline. Applied Surface Science. 2019,464:115-124 [22] Xinyu Wang, Fengxiang Li, Xiaomin Hu, Tao Hua.Electrochemical advanced oxidation processes couple with membrane filtration for degrading antibiotic residues: a review on its potential application, advance, and challenge. Science of the Total Environment. 2021,784:146912 [23] Fengxiang Li, Yogesh Shama, Yu Lei, Baikun Li, Qixing Zhou. Microbial fuel cells: the effects of configurations, electrolyte solutions and electrode materials on power generation. Applied Biochemistry and Biotechnology. 2010, 160（1）:168-181 [24] Shengnan Li, Chaofan Zhang, Fengxiang Li, Tao Hua, Qixing Zhou, Shih-Hsin Ho*. Technologies towards antibiotic resistant gene (ARG) removal from aquatic environments: A critical review.Journal of Hazard Materials. 2021, 411（5）:125148. [25] Shengnan Li, Tao Hua*, Fengxiang Li, Qixing Zhou. Bio-electro-Fenton systems for sustainable wastewater treatment: mechanisms, novel configurations, recent advances, LCA and challenges. An updated review. Journal of Chemical Technology and Biotechnology. 2020,95(8):2083-2097 [26] Wendan Xue, Fengxiang Li, Qixing Zhou*. Degradation mechanisms of sulfamethoxazole and its induction of bacterial community changes and antibiotic resistance genes in a microbial fuel cell. Bioresource Technology, 2019, 289:121632 [27] Fen Hou, Fengxiang Li, Qixing Zhou*. Impact of modern human activities on the Songhua River’s health in Heilongjiang province. Management Science and Engineering. 2015, 9(1):1-6 [28] Daqing Mao, Shuai Yu, Michal Rysz, Yi Luo, Fengxia Yang, Fengxiang Li, Jie Hou, Quanhua Mu , P.J.J. Alvarez*. Prevalence and proliferation of antibiotic resistance genes in two municipal wastewater treatment plants. Water Research. 2015 (85): 458-466 [29] Wei Li，Tao Hua, Qixing Zhou*, Shuguang Zhang, Fengxiang Li. Treatment of stabilized landfill leachate by the combined process of coagulation/flocculation and powder activate carbon adsorption. Desalination. 2010, 264(1-2),56-62 [30] Yaning Li, Qixing Zhou*, Fengxiang Li, Xiaoling Liu, Yi Luo. Effects of tetrabromobisphenol A as an emerging pollutant on wheat (Triticum aestivum) at biochemical levels. Chemosphere. 2008, 74:119-124 EI论文 [31] 薛雯丹，朱绪娅，周启星，李凤祥*。沸石咪唑酯骨架材料合成及其在气体吸附分离领域的研究进展。化工进展。2019，38（5）：2242-2251 [32] 薛雯丹，王博，李凤祥*，周启星，高冠道，李亚宁。磺胺甲噁唑对微生物电解池阳极微生物群落结构影响。化工进展。2018，37 (7):2790-2797 [33] 王博，高冠道，李凤祥*，周启星，宋晓静，翟欢欢，李亚宁。微生物电解池应用研究进展。化工进展。2017，36（3）1084-1092 [34] 李凤祥，周启星，Baikun Li。颗粒活性炭改进阳极提升微生物燃料电池性能的研究。应用基础与工程科学学报。2010，(18):877-885

学术兼职

受聘中国环境保护产业协会水污染治理委员会，天津市节水水处理技术研究会第八届监事会，天津市自然资源学会；国内外多家环境类期刊（Scientific Reports，Chemical Engineering Journal, Desalination, Science of the Total Environment，Environmental Research，Journal of Environmental Sciences，Environmental Science and Pollution Research，Bioprocess and Biosystems Engineering等）审稿人。

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