“微生物电+”（ME+ Lab）实验室教师包括：李田（副教授 / 硕士生导师 / 第一批天津市青年科技人才）、陈妹（讲师 / 硕士生导师 / 国际水协中国青年委员会“新星”委员）、孙越（博士后 / 教育部海外博士后引才专项入选者），充满活力，欢迎你的加入！

2024届毕业生的珍贵礼物

1.       国家自然科学基金-原创探索项目（一期）：“面向好氧水体BOD快速检测的细菌新型兼性电营养呼吸机制探索”，80万，2025.01-2025.12，负责人（52450011），在研

2.       国家自然科学基金-面上项目：“基于分层微生物群落设计的污水处理高效电活性生物膜构建方法探索”，54万，2023.01-2026.12，负责人（52270042），在研

3.       国家自然科学基金-国际合作项目：“农业畜禽和农村厕所废水多污染物快速消减机制与节能增效”，60/200万，2023.1-2025.12，参与人（52261145701），在研

4.       中海油服重点课题：“钻井废弃物生物毒性实时检测技术与设备研究”。219万，2023.8-2024.8，负责人（合同编号G2317A-0521C083），在研

5.       国家自然科学基金-优秀青年科学基金项目：“厌氧废水处理与资源化”，130万，2020.1-2022.12，负责人（51922051），结题

6.       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”（2019YFC1804100）子课题负责人，141万（2267万），2019.12-2023.11，结题。

7.       国家自然科学基金-面上项目：“厌氧废水处理系统中外源非匀强电场对电活性微生物的定向富集机理”，66万，2019.1-2022.12，负责人（21876090），结题。

8.       国家自然科学基金-面上项目：“生物电化学系统中混菌生物膜的形成过程与快速高效成膜方法研究”，70万，2016.1-2019.12，负责人（21577068），结题。

9.       天津市杰出青年科学基金：“污水处理与资源化”，60万，2020-2022，负责人（20JCJQJC00040），在研

10.    天津市应用基础与前沿技术研究计划重点项目：“水源水质预警的新型自养生物电化学在线监测系统”，20 万，2018.4-2021.3; 负责人（18JCZDJC39400），结题优秀

11.    南开大学百名青年学科带头人团队，66/200万，2018-2021，研究骨干，结题

12.    南开大学百名青年学科带头人培养计划，50万，2015-2019，负责人，结题

13.    天津市应用基础与前沿技术研究计划（青年基金项目）：“可放大的无铂无Nafion新型微生物燃料电池空气阴极研究”，6.0 万，2013.4-2016.3; 负责人 （13JCQNJC08000），已结题

14.    天津市政工程设计研究院横向项目：“污泥好氧发酵资源化利用与安全性评价的研究”，19万元，2013.11-2015.11；负责人（合同编号2013225），已结题

15.    城市水资源与水环境国家重点实验室开放课题：“以微生物燃料电池为传感器检测水中典型复合污染的毒性效应研究”, 5万, 2011.7.1-2014.6.30; 负责人（HC201108），已结题

16.    国家自然科学基金-青年科学基金项目：“利用微生物燃料电池研究典型复合污染对根际微生物的生态毒理效应”, 25万, 2012.1-2014.12; 负责人（21107053），已结题

17.    中央高校基本科研业务费：“微生物燃料电池强化石油烃污染土壤的修复过程研究”, 15万, 2011-2013; 负责人，已结题

18.    教育部创新团队：“污染生态化学”，300万，2014-2016；学术骨干（IRT13024）。

19.    NSFC-广东联合基金重点项目：“电子垃圾污染土壤的生态修复机制研究”，230万元，2012.1-2015.12；参加（U1133006），已结题

20.    国家863重大项目：“石油开采场地及周边地区污染土壤修复技术研究与示范”，720万元，2013.1-2015.12：参加（2013AA06A205），已结题

1.      王鑫，杜霖，严雨清。一种基于机器学习的微生物电化学传感器的综合毒物监测方法。专利号：ZL 202111071935.5，授权日：2025

2.      王鑫，李田，刘华旺，李楠，廖承美。一种新型间歇转连续式微生物电解池原位监测系统。专利号：ZL 202011229333.3.申请日：2020.11.06; 授权日：2022.12.06. 

3.       周启星，李田，王鑫。一种堆叠式可循环微生物电化学反应器、石油烃污染土壤的降解方法。专利号：CN112872014B，授权日：2021.10.26

4.      王鑫，李田，张晓林。一种用于土壤碳减排的自组装电极及应用。专利号：ZL 202210148972.X，授权日：2022.10.21. 

5.      王鑫，廖承美，赵倩。一种PDA保护的电活性生物膜还原Ag+合成AgNPs的方法。专利号：ZL 202110669703.3，授权日：2022.6.22

6.      王鑫，黄宗亮，万雨轩，李楠。一种微生物电化学铵化回收废水中硝态氮的方法，专利号： ZL 201910378257.3，授权日：2021.7.23

7.      王鑫，李楠，周乐安。一种微生物电化学传感器的制备方法、使用方法及应用，专利号：ZL 201910771900.9，授权日：2021.7.20（已转化）

8.      刘华旺，王鑫，李田。一种微生物电化学传感器双模式转换型无线原位监测方法。专利号：ZL 202022555910.X. 授权日：2021.7.16

9.      李田, 李瑞祥, 张晓林, 王鑫, 周启星。一种电化学原位诱导聚苯胺负载石墨烯修饰电极的制备方法及应用、除镉方法。专利号：CN112830568B，授权日：2021.7.1

10.    王鑫，周乐安，潘晓强。一种半波交流电场原位高效清除多孔材料表面与内部盐分的方法. 专利号：ZL 201810020720.2，授权日：2021.4.30

11.    王鑫，李田，周乐安，周恩财。一种生物膜原位观测装置，实用新型专利，专利号：ZL 2020 2 1164862.5，授权日：2021.2.12

12.    王鑫，李田，周启星。一种微生物电化学传感器快速检测酸雨对水稻健康影响的方法. 专利号：ZL 201711112891.X，授权日：2021.01.12

13.    李田，周启星，王鑫。一种超灵敏电活性生物膜实现对水体中超低浓度甲醛检测的方法. 专利号：ZL 201811402627.4，授权日：2020.11.27

14.    王鑫，关辽，刘轶男，张哲，梅卓，杨晓月。一种人工湿地与微生物燃料电池结合的污水处理系统，专利号：ZL 201510304331.9，IPC分类号：C02F3/32；H01M8/16；C02F3/34，授权日：2020.1.31

15.    李楠，安敬昆，王鑫。用于电容脱盐的离子交换树脂基-活性炭一体式电极的制备方法。专利号：ZL 201610165459.6，授权日：2019.04.23。

16.    王鑫，杜青，李田。一种高稳定微生物电化学传感器的制备方法. 专利号：ZL 201611201977.5，IPC分类号 : G01N27/327 ;G01N27/416，授权日：2019.03.5 （已转化）

17.    李楠，王舒，安敬昆，王鑫. 一种酸处理石墨颗粒电极的制备及应用。专利号：ZL 201710115284.2，授权日：2018.08.17 

18.    李楠，安敬昆，王鑫. 一种石墨-炭黑混合空气扩散阴极片的制各和应用。专利号：ZL 201610031999.5，授权日：2018.09.04 

19.    李晓晶，周启星，王鑫，张月勇，程立娟，万丽丽。一种基于MFC技术原位修复石油污染土壤并产电的方法. ZL 201510594544.X，授权日期：2018年1月16日 

20.   王鑫，李晓晶，张月勇，周启星，李楠。一种原位土壤电导率的测量装置和测量方法. ZL 2013 1 0402937.7，授权日期：2016年1月27日 

21.    张月勇，李哓晶，周启星，王鑫，李楠。一种微生物燃料电池空气阴极片的制备方法. ZL 2013 1 0745120.X，授权日期：2015年10月28日 

22.    李晓晶，张月勇，周启星，王鑫，李楠，程立娟。一种采用电化学装置修复石油污染土壤并同步产电的方法. ZL 2014 1 0140586.1，授权日期：2015年7月8日 

23.    董恒, 于宏兵, 王鑫, 一种微生物燃料电池空气阴极及其制备方法. ZL 2012 1 0062506.6 授权日期：2014年3月26日。

24.   冯玉杰, 刘佳, 王鑫, 史昕欣, 杨俏, 一种提高微生物燃料电池镍基体空气阴极材料性能的方法. ZL 201110132611.8 授权日期：2013年12月25日。

25.    冯玉杰, 刘佳, 王鑫, 史昕欣, 杨俏, 电极材料和空气阴极微生物燃料电池的阴极材料及其制作方法. ZL 2011 1 0125963.0. 授权日期：2013年4月17日. 

26.    王鑫, 周启星, 蔡章, 唐景春, 一种土壤微生物燃料电池及修复石油烃污染土壤的方法. ZL 201110324912.0. 授权日期：2012年12月5日. 

27.    冯玉杰, 刘佳, 王鑫, 双室藻类微生物燃料电池及其低能耗处理废水的方法. ZL 200910310298.5. 授权日期：2012年8月22日.

28.    冯玉杰, 刘佳, 王鑫, 双室藻类微生物燃料电池及其处理废水实现零碳排放的方法.  ZL 200910310306.6. 授权日期：2011年12月7日.

29.    冯玉杰, 李贺, 王鑫, 折流板空气阴极微生物燃料电池. 专利号：ZL 2008 1 0063876.5. 授权日期：2010年9月22日.

30.    冯玉杰, 王赫名, 于艳玲, 王鑫. 微生物燃料电池及利用秸秆发电的方法. 专利号：ZL 2007 10144804.9. 授权日期：2010年2月3日.

31.   冯玉杰, 王鑫, 李贺. 微生物燃料电池及其处理啤酒废水的方法. 专利号：ZL 2007 10144550.0, 授权日期：2009年3月11日.

32.   Zhang Cai, Qixing Zhou, LijuanCheng, Ruiren Zhou, Xin Wang,Jingchun Tang, Qingmin Zhang, Jie Liu, Weitao Liu, Junjie Yang. “Enhanced combination method for phytoremediation of petroleumcontaminated soil by Impatiens balsamina L. associated with the indigenousmicroorganisms”. US Patent No. 9333382, Attorney docknet No. LY339-PAT345.Date: 2016.4.20

2025

1.      Han Y, Liao C, Jiang X, Wang Z, Wu Y, Zhang M, Li N, Zhang T,Wang X*. Extracellular Electron Uptake Mediated by H2O2.Environ. Sci. Technol., 2025, in press.

2.      Zhang M, Han Y, Zeng Y, Wang T, Wang Z, Wu Y, Li N, Lobo FL, WangX*. Understanding the Microbial Processes on Carbon Brushes that AccelerateMethanogenesis of Long-chain Fatty Acids in Anaerobic Digestion. Water Res.,2025, 273, 123084.

3.      Zhao Q, Liao C, Jiang E, Yan X, Su H, Tian L, Li N, Lobo FL, WangX*. Dual-Purpose Elemental Sulfur for Capturing and AcceleratingBiodegradation of Petroleum Hydrocarbons in Anaerobic Environment. Water Res.X, 2025, 26, 100290.

4.      Chang J, Liang D, Gao Y, Sun Y, Wang X, Ren NQ,Li N*. Nano-magnetite enhances dissimilated iron reduction to vivianite fromsewage by structuring an enormous and compact electron transfer network. WaterRes., 2025, 268, 122583.

5.      Sun Y, Chang J, Wang S, Wang X, Khu ST*, Li N*.Sympatric gradient utilization of human urine to induce the recovery of shortchain fatty acids (SCFAs) and vivianite. J. Water Process. Eng., 2025,70, 107025.

2024

6.      Yan X, Wang Z, Liao C, Su H, Zhao Q, Tian L, Li N, WangX*. UnderstandingTail Current Behaviour of Electroactive Biofilms Realizes the Rapid Measurementof Biochemical Oxygen Demand. Environ. Sci. Technol., 2024, 58, 6,2881-2890.

7.      Wan Y, Li R, Yao K, Peng C, Wang W, Li N, Wang X*.Bioelectro-barriers Prevent Nitrate Leaching into Groundwater via NitrogenRetention. Water Res., 2024, 249, 120988.

8.      Wu Y, Jiang X, Wan Y, Zhang B, Wang Z, Li N, Wang X*.Fe(III)/Fe(II) Cycle Enables Biological Nitrate Ammoniationat Low C/N Ratio for Reactive Nitrogen Recovery. Resour. Conserv. Recy., 2024, 205,107587.

9.      Wang J, Chen M*, Zhang J, Sun X, Li N, Wang X*.Dynamic Membrane Filtration Accelerates Electroactive Biofilms inBioelectrochemical Systems. Environ. Sci. Ecotechnol., 2024, 20, 100375.

10.   Su H, Yan J*, Yan X, Zhao Q,Liao C, Li N, Wang X*. Highly Sensitive Standardized ToxicityBiosensors for Rapid Water Quantity Warning. Bioresour. Technol., 2024,406, 130985.

11.   Wan Y, Li R, Yan X, Qu F, Qu D,Zhou L, Li T*, Li N, Wang X*. High-Selective Microbial ElectrocatalyticAmmonia Synthesis from Nitrite: Unlocking Electron Allocation Mechanisms in ControllableBiocatalysts. ACS Sustainable Chem. Eng., 2024, 12, 27,10286-10295.

12.   Zhang M, Wang T, Han Y, Yan X,Zhu X, Sun Y, Jiang X*, Wang X*. Anode Potential Regulates GasComposition and Microbiome in Anaerobic Electrochemical Digestion. Bioresour.Technol., 2024, 412(2):131414.

13.   Wang W, Jiang N, Zhu X, Sun X, Chen M, Cui Y, Li T*, WangX*. Bio-MIL-100(Fe) Heterostructure Construction and Charge Regulation:Iron Redundancy Breakthrough in a Fenton-like System. ACS ES&T Water,2024, in press.

14.   Zhou L, Zeng Y, Xu C, Al-DhabiNA, Wang S, Sun S, Wang J, Tang W, Li T, Wang X*. Exogenous PathsRegulate Electron Transfer Enhancing Sediment Phosphorus Immobilization. Sci.Tot. Environ., 2024, 951, 175689.

15.   Wang H, Long X*, Miran W, Zhao Y, Cao X, Li X, Wang X*,Yang F*. Extracellular electron transfer-coupled heavy metal reduction inbiogeobattery: Perspectives and challenges. J. Clean. Prod., 2024,452, 142142.

16.   Wang T, Zhang J, Wang Z, Zhao Q, Wu Y, Li N, Jiang X*, WangX*. Bioelectrochemically Enhanced Autotrophic Feammox for Ammonium Removalvia Fe(II)/Fe(III) Cycle. Environ. Sci.-Wat. Res., 2024, 10,1355-1364（主封面论文）.

17.   Sun X, Chen M*, Li Y, Wang J, Zhang M, Li N, Dai R, Wang Z, WangX. A Novel Anaerobic Cathodic Dynamic Membrane Bioreactor (AnCDMBR) forEfficient Mitigating Fouling and Recovering Bioenergy from Municipal Wastewater.Water Res., 2024, 265, 122225.

18.   Liang D, Chang J, Wu Y, Wang S, Wang X, Ren N,Li N*. The screening of iron oxides for long-term transformation into vivianiteto recover phosphorus from sewage. Water Res., 2024, 265, 122250.

19.   Zhang X, Song J, Li R, Zhou L, Li T*, Wang X,Zhou Q*. Artificial electron snorkels reduce CH4 emissions in paddysoil: Regulation of the electron transfer pathway and microbial communityecology. Soil Biol. Biochem., 2024, 196, 109504.

20.   WangW, Zhao Q, Zhang X, Yan X, Wan Y, Su H, Wang X, Jiang X*, Li T*. Geobactermediated self-assembly preparation of MIL-100(Fe)@Fe3O4 for Fenton-likereaction catalysts. Sep. Purif. Technol., 2024, 330, 125474.

21.   LiY, Chen M*, Sun X, Zhang M, Wang J, Jiang D, Dai R, Zheng J, Wang X.Ultrafiltration membrane modified via synergistic integration of quaternary ammoniumcompounds bactericidal activity and g-C3N4 photocatalysis: Toward superiorantibiofouling and self-cleaning property. Chem. Eng. J., 2024, 499,156207.

22.   Gao Y, Ren N, Wang S, Wu Y, Wang X, Li N*. Lowintensity magnetic separation of vivianite induced by iron reduction on thesurface layer of Fe (III)[Fe (0)] iron scrap. Environ. Res., 2024,240, 117472.

2023

23.   Wu Y, Zhang B, Wan Y, Jiang Y, Li N, Jiang X, Liao C*, WangX*. Fe(0)-dissimilatory Nitrate Reduction to Ammonium for AutotrophicRecovery of Reactive Nitrogen. Environ. Sci. Technol., 2023, 57, 17353-17362.

24.   Wang B, Liu Y, Wang X*, Sun P*. Overcominghydrogen loss in single-chamber microbial electrolysis cells by urine amendment.Water Res., 2023, 247, 120755.

25.   Yan Y, Zhang J, Tian L, Yan X, Du L, Leininger A, Zhang M, LiN, Ren Z J*, Wang X*. DIET-like Mutualism of Geobacter andMethanogens at Specific Electrode Potential Boosts Production of both Methaneand Hydrogen from Propionate. Water Res., 2023, 235, 119911.

26.   Han Y, Liao C*, Meng X, Zhao Q, Yan X, Tian L, Liu Y, Li N, WangX*. Switchover of Electrotrophic and Heterotrophic Respirations Enablesthe Biomonitoring of Low Concentration of BOD in Oxygen-rich Environment. WaterRes., 2023, 235, 119897.

27.   Wang T, Chen M*, Zhu J, Li N, Wang X*. Anodicammonium oxidation in microbial electrolysis cell: Towards nitrogen removal inlow C/N environment. Water Res., 2023, 242, 120276.

28.   Wan Y, Du Q, Wu Y, Li R, Yan X, Li N, Wang X*. RapidDissimilatory Nitrate Reduction to Ammonium Conserves Bioavailable Nitrogen inOrganic Deficient Soils. Soil Biol. Biochem., 2023, 177, 108923.

29.   Su H, Yan X, Zhao Q, Liao C, Tian L, Wang Z, Wan Y, Li N, WangX*. Layered Designof Highly Repeatable Electroactive Biofilm for a Standardized Biochemical OxygenDemand Sensor. ACS Sensors, 2023, 8, 6,2383–2390.

30.   Tian L, Liao C, Yan X, Zhao Q, Wang Z, Li T, Li N, WangX*. Endogenous Electric Field Accelerates Phenol Degradation inBioelectrochemical Systems with Reduced Electrode Spacing. J. Haz. Mater.,2023, 442, 130043.

31.   Zhu X, Liao C*, Song D, Yan X, Wan Y, Sun H, Wang X*.Glucose facilitates the acclimation of organohalide-respiring bacteria. J.Haz. Mater., 2023, 444, 130421.

32.   Han Y, Li H, Liao C*, Zhu X, Wang Z, Yan J, Wang X*.Rapid warning of emerging contaminants in reuse water using biocathode sensors.J. Haz. Mater., 2023, 457, 131735.

33.   Li R, Wan Y, Li T*, Zhang X, Wang J, Zhou L, Li N, WangX*. Establishment of low-carbon microbial network to enhance phenolremoval in microbial electrochemical systems with whole process carbon sourcelimitation. Chem. Eng. J., 2023, 452, 139530.

34.   Chen M*, Li Y, Sun X, Dai R, Zheng J, Wang X*,Wang Z. Recent advances in electrochemical processes integrated with anaerobicmembrane bioreactor in wastewater treatment. Chem. Eng. J., 2023,468, 143822.

35.   Liao C, Tian L*, Wang Z, Zhu X, Han Y, Li T, Wang X*.Toxicity warning and online monitoring of disinfection by-products in water byelectroautotrophic biocathode sensors. Biosens. Bioelectron., 2023,219, 114799.

36.   Zhu J, Zhao Q, Wang J, Li N, Chen M*, Wang X*. Negative-pressuregas-diffusion electrode for effective ammonia recovery in bioelectrochemicalsystems. J. Clean. Prod., 2023, 414, 137641.

37.   Liu Y, Zhao Q, Liao C, Tian L,Yan X, Li N, Wang X*. Anaerobic bioreduction of elemental sulfurimproves bioavailability of Fe(III) oxides for bioremediation. Sci. Tot.Environ., 2023, 858, 159794.

38.   Zhao Q, Liu Y, Liao C, Yan X, Tian L, Li T, Li N, WangX*. Reduction of S0 Deposited on Electroactive Biofilm Underan Oxidative Potential. Sci. Tot. Environ., 2023, 882, 163698.

39.   Wang Z, Liao C*, Zhong Z, Liu S, Li M, Wang X*,Design, optimization and application of a highly sensitive microbialelectrolytic cell-based BOD biosensor. Environ. Res., 2023, 216, 114533.

40.   SongD, Qiao B, Wang X, Zhao L, Li X, Zhang P, Yao Y, Chen H, Zhu L,Sun H*. Degradation of Perfluorooctanoic Acid by Chlorine Radical TriggeredElectrochemical Oxidation System. Environ. Sci. Technol., 2023, in press.

41.   QiaoY, Ren N, Li X, An J, Wang X, Li N*. Electrochemical productionof H2O2 with 100% current efficiency and strong stabilityby adjusting the interfacial side reactions of air-breathing cathodes. Chem.Eng. J., 2023, 463, 142417.

42.   WangS, Ren N, Liang D, Chang J, Wang X, Yan J, Cheng X, Dong L, LiN*. Promoting vivianite recovery: Crucial role of tightly-bound extracellularpolymeric substances. J. Clean. Prod., 2023, 406, 137146.

43.   SongD, Qiao B, Yao Y, Zhao L, Wang X, Chen H*, Zhu L, Sun H*. Targetand Nontarget Analysis of Per- and Polyfluoroalkyl Substances in Surface Water,Groundwater and Sediments of Three Typical Fluorochemical Industrial Parks inChina. J. Haz. Mater., 2023, 460, 132411.

44.   LiY, Wang X, Li Z, Chen M*, Zheng J, Wang X. Recent advances inphotocatalytic membranes for pharmaceuticals and personal care products removalfrom water and wastewater. Chem. Eng. J., 2023, 475, 146036.

45.   Wan Y, Li R, Wang X, Liao C*. Recovery ofreactive nitrogen from wastewater using bioelectrochemical systems. Sep.Purif. Technol., 2023, 327, 125002.

46.   ZhangX, Song J, Yan W, Li T*, Li R, Wang J, Wang X, Zhou Q. Regulationof rhizospheric microbial network to enhance plant growth and resistpollutants: Unignorable weak electric field. Sci. Tot. Environ., 2023,855, 158888.

47.   WangS, Li N, Yuan Q, Chang J, Liang D, Wang X, Ren N*. VivianiteRecovery from High Concentration Phosphorus Wastewater with Mine Drainage asIron Sources. Sci. Tot. Environ., 2023, 858, 160098.

48.   YangY, Wang J, Chen M*, Li N, Yan J, Wang X. Self-formingelectroactive dynamic membrane for enhancing the decolorization of methylorange by weak electrical stimulation. Sci. Tot. Environ., 2023, 863,160897.

49.   ChangJ, Ren N, Yuan Q, Wang S, Liang D, He Z, Wang X, Li N*. Charging-dischargingcycles of geobattery activated carbon enhance iron reduction and vivianiterecovery from wastewater. Sci. Tot. Environ., 2023, 882, 163541.

2022

50.   Tian L, Yan X, Wang D, Du Q, Wan Y, Zhou L, Li T, Liao C, LiN, Wang X*. Two Key Geobacter Species ofWastewater-enriched Electroactive Biofilm Respond Differently to Electric Field.Water Res., 2022, 213, 118185.

51.   Du L, Yan Y, Li T, Liu H, Li N, Wang X*. Machine Learning Enables Quantification of Multiple Toxicantswith Microbial Electrochemical Sensors. ACS ES&T Eng., 2022,2, 92-100.

52.   Yan Y, Wang X*.Integrated Energy View of Wastewater Treatment: A Potential of Electrochemical Biodegradation.Front. Environ. Sci. Eng., 2022, 16(4), 52.

53.   Wu Y, Du Q, Wan Y, Zhao Q, Li N, Wang X*. AutotrophicNitrate Reduction to Ammonium via Reverse Electron Transfer in Geobacter DominatedBiofilm. Biosens. Bioelectron., 2022, 215, 114578.

54.   Wu Y, Wan Y, Tian L, Liu S, Pan Y, Zhu X, Han Y, Li N, WangX*. Bioelectrochemical Partial-Denitrification Coupled with Anammox forAutotrophic Nitrogen Removal. Chem. Eng. J., 2022, 434, 134667.

55.   Tian L, Song J, Ren Y, Zhao Q, Li Y, Luo X, Li N, Li T*, WangX*. Biosynthesis and Recycling of Magnetite Nanocatalysts fromFe-rich Sludge. Resour. Conserv. Recy., 2022, 182, 106348.

56.   Zhu J, Yan X, Zhou L, Li N, Liao C*, Wang X*. Insight of Bacteria andArchaea in Feammox Community Enriched from Different Soils. Environ. Res., 2022, 203, 111802.

57.   Dong Y, Sui M, Jiang Y, Wu J, Wang X*. Dibutylphthalate weakens the role of electroactive biofilm as an efficient wastewaterhandler and related mechanism. Sci. TotalEnviron., 2022, 807, 151612.

58.   Zhou L, Jiang Q, Sun S*, Wu Y, Li T, Gao Y, Zhang W, Tian L,Tang M, Wang X*. Acetate stimulates tetracycline biodegradationpathways in bioelectrochemical system. Sep. Purif. Technol., 2022,286, 120481.

59.   Jing X, Liu X*, Zhang Z, Wang X, Rensing C,Zhou S*. Anode respiration-dependent biological nitrogen fixation by Geobactersulfurreducens. Water Res., 2022, 208, 117860.

60.   Hu D, Liu L, Liu W, Yu L, Dong J, Han F, Wang H*, Chen Z*, GeH, Jiang B, Wang X, Cui Y, Zhang W, Zhang Y, Liu S, Zhao L. Improvementof sludge characteristics and mitigation of membrane fouling in the treatmentof pesticide wastewater by electrochemical anaerobic membrane bioreactor. WaterRes., 2022, 213, 118153.

61.   An J, Feng Y, Wang N, Zhao Q, Wang X, Li N*. AmplifyingAnti-Flooding Electrode to Fabricate Modular Electro-Fenton System forDegradation of Antiviral Drug Lamivudine in Wastewater. J. Haz. Mater., 2022,428, 128185.

62.   Li W, Feng Y, An J, Li Y, Zhao Q, Liao C, Wang X,Li N*. Thermal reduced graphene oxide enhanced in-situH2O2 generation and electrochemical advanced oxidationperformance of air-breathing cathode. Environ. Res., 2022, 204,112327.

63.   Zhang X, Li R, Wang J, Liao C, Zhou L, An J, Li T*, WangX, Zhou Q*. Construction of conductive network using magnetite toenhance microflora interaction and petroleum hydrocarbons removal in plant-rhizospheremicrobial electrochemical system. Chem. Eng. J., 2022, 433,133600.

64.   Li N, Huang C, Wang X, Feng Y, An J*. Electrosynthesisof hydrogen peroxide via two-electron oxygen reduction reaction: A criticalreview focus on hydrophilicity/hydrophobicity of carbonaceous electrode. Chem.Eng. J., 2022, 450, 138246.

65.   Zhu X, Wang X, Li N, Wang Q, Liao C*. Bioelectrochemicalsystem for dehalogenation: A review. Environ. Pollut., 2022, 293,118519.

66.   Lan J, Ren Y, Luo H, Wang X, Liu G*, Zhang R.High current density with spatial distribution of Geobacter in anodicbiofilm of the microbial electrolysis desalination and chemical-production cellwith enlarged volumetric anode. Sci.Total Environ., 2022, 831, 154798.

67.   An J, Feng Y**, Zhao Q, Wang X, Li N*. Electrosynthesisof H2O2 through a two-electron oxygen reduction reactionby carbon based catalysts: From mechanism, catalyst design to electrodefabrication. Environ. Sci. Ecotechnol., 2022, 11, 100170.

68.   Lee HS*, Wang X, Katakojwala R, Mohan SV, Tabish NMD. Microbialelectrolysis cells for the production of biohydrogen in dark fermentation – Areview. Bioresour. Technol., 2022, 363, 127934.

69.   张佳瑶, 廖承美, 王琪, 王鑫*, 微生物电解池处理厨余垃圾液化液同步资源化产氢. 工业水处理, 2022, 42,59-66.

2021

70.   Yan X, Du Q, Mu Q, Tian L, Wan Y, Liao C, Zhou L, Yan Y, Li N,Logan BE, Wang X*. Long-Term Succession Shows InterspeciesCompetition of Geobacter in Exoelectrogenic Biofilms. Environ. Sci.Technol., 2021, 55, 14928-14937.

71.   Qi X, Wang S, Li T, WangX*, Jiang Y, Zhou Y, Zhou X, Huang X, Liang P*. An electroactive biofilm-basedbiosensor for water safety: pollutants detection and early-warning. Biosens. Bioelectron., 2021, 173, 112822.

72.   Li T, Liao C, An J, Zhou L, Tian L, Zhou Q, Li N, Wang X*. A Highly SensitiveBioelectrochemical Toxicity Sensor and Its Evaluation Using Immediate CurrentAttenuation. Sci. Total Environ., 2021, 766, 142646.

73.   Liao C, Zhao Q, Wang S, Yan X, Li T, Zhou L, An J, Yan Y, LiN, Wang X*. ExcessiveExtracellular Polymeric Substances Induced by Organic Shocks Accelerate ElectronTransfer of Oxygen Reducing Biocathode. Sci.Total Environ., 2021, 774,145767.

74.   ZhuJ, Li T, Liao C, Li N, Wang X*.A Promising Destiny for Feammox: From Biogeochemical Ammonium Oxidation toWastewater Treatment. Sci. TotalEnviron., 2021, 790, 148038.

75.   Liu Y, Zhu X, Zhao Q, Yan X, Du Q, Li N, Liao C*, Wang X*. Synthesis of SilverNanoparticles Using Living Electroactive Biofilm Protected by Polydopamine. iScience, 2021, 24:8, 102933.

76.   Zhao Q, Li N*, Liao C, Tian L, An J, Wang X*. The UV/H2O2 process based onH2O2 in-situ generation for water disinfection. J. Haz. Mater. Lett., 2021, 2, 100020.

77.   Sui M, Li Y*, Jiang Y, Zhang Y, Wang L, Zhang W, Wang X. Light exposureinterferes with electroactive biofilm enrichment and reduces extracellularelectron transfer efficiency. Water Res.,2021, 188, 116512.

78.   Wu Y, Wang C, Wang S, An J, Liang D, Zhao Q, Tian L, Wu Y, Wang X, Li N*. GraphiteAccelerate Dissimilatory Iron Reduction and Vivianite Crystal Enlargement. Water Res., 2021, 189, 116663.

79.   Gao K, Wang X,Huang J, Xia X, Lu Y*. Response of methanogen communities to the elevation ofcathode potentials in bioelectrochemical reactors amended with magnetite. Appl. Environ. Microb., 2021, 87, e01488-21.

80.   Yan Y, Wang X,Askari A, Lee HS*. A Modelling Study of the Spatially Heterogeneous Mutualismbetween Electroactive Biofilm and Planktonic Bacteria. Sci. Total Environ., 2021,759, 143537.

81.   Li Z, Zhang P, Qiu Y, Zhang Z, Wang X, Yu Y, Feng Y*. Biosynthetic FeS/BC hybrid particlesenhanced the electroactive bacteria enrichment in microbial electrochemicalsystems. Sci. Total Environ., 2021, 762, 143142.

82.   Feng Y, Li W, An J, Zhao Q, Wang X, Liu J, He W, Li N*. Graphene family for hydrogenperoxide production in electrochemical and bioelectrochemical system. Sci. Total Environ., 2021, 769, 144491.

83.   Zhao Q, An J, WangX, Li N*. In-situ hydrogen peroxide synthesis with environmentalapplications in bioelectrochemical systems: A state-of-the-art review. Int. J. Hydrogen Energ., 2021, 46(4), 3204-3219.

84.   Dong Y, Sui M*, WangX, Zhang P, Jiang Y, Wu J. Responses of electroactive biofilms tochronic chlorine exposure: Insights from the composition and spatial structureof extracellular polymeric substances. Bioelectrochem,2021, 142, 107894.

85.   Zhang X, Li R, Song J, Ren Y, Luo X, Li Y, Li X, Li T*, Wang X, Zhou Q*. Combinedphyto-microbial-electrochemical system enhanced the removal of petroleumhydrocarbons from soil: a profundity remediation strategy. J. Haz. Mater., 2021,420, 126592.

86.   Yu X, Wang L, Wang X, Liu H, Wang Z, Huang Y,Shan G, Wang W*, Zhu L*. Enhanced nonradical catalytic oxidation byencapsulating cobalt into nitrogen doped graphene: highlight on interfacialinteractions. J. Mater. Chem. A, 2021, 9, 7198-7207.

87.   Yuan Q, Wang S, Wang X, Li N*. Biosynthesis ofvivianite from microbial extracellular electron transfer and environmentalapplication. Sci. Total Environ., 2021, 762, 143076.

88.   Yazhini K B, Wang X, Zhou Q*, Stevy B O. Synthesisof ppy–MgO–CNT nanocomposites for multifunctional applications. RSC Adv.,2021, 11, 36379.

89.   周乐安, 蒋倩, 孙士权, 张伟, 高阳, 王鑫*. 微生物电化学技术去除水体中抗生素的研究进展. 土木与环境工程学报（中英文）, 2021, 43, 113-123.

90.   万雨轩, 王鑫*. 废水处理中异化硝酸盐还原为铵的研究进展. 土木与环境工程学报（中英文）, 2021, 43, 134-144.

2020

91.   Wan Y, Huang Z, Zhou L, Li T, Liao C, Yan X, Li N, Wang X*.Bioelectrochemical Ammoniation Coupled with Microbial Electrolysis forNitrogen Recovery from Nitrate in Wastewater. Environ. Sci. Technol. 2020,54, 3002-3011 (Supplementary Cover Story).

92.   Zhou L, Jiang Y, Wan Y, Liu X, Zhou H, Li W, Li N, Wang X*. Electron Flow Shiftsfrom Anode Respiration to Nitrate Reduction During Electroactive BiofilmThickening. Environ. Sci. Technol. 2020, 54(15), 9593-9600.

93.   Li T, Zhou Q, Zhou L, Yan Y, Liao C, Wan L, An J, Li N, Wang X*. Acetate LimitationSelects Geobacter from Mixed Inoculumand Reduces Polysaccharide in Electroactive Biofilm. Water Res. 2020, 177, 115776.

94.   Yan X, Lee HS, Li N, WangX*. TheMicro-niche of Exoelectrogens Influences Bioelectricity Generation inBioelectrochemical Systems. Renew. Sust. Energ. Rev., 2020, 134, 110184.

95.   Zhou L, Yan X, Yan Y, Li T, An J, Liao C, Li N, Wang X*. Electrode PotentialRegulates Phenol Degradation Pathways in Oxygen-diffused MicrobialElectrochemical System. Chem. Eng. J. 2020, 38, 1122663.

96.   Yan Y, Li T, Zhou L, Tian L, Yan X, Liang C, Huang Z, Li N, Wang X*. SpatiallyHeterogeneous Propionate Conversion Towards Electricity in BioelectrochemicalSystems. J. Power Source, 2020, 449, 227557.

97.   Li N, Wan Y, Wang X*.NutrientConversion and Recovery from Wastewater Using Electroactive Bacteria.Sci. Total Environ., 2020, 706, 135690.

98.   Wang S, Wu Y, An J, Liang D, Tian L, Zhou L, Wang X, Li N*. Geobacter autogenically secreted fulvicacid to facilitate the dissimilated iron reduction and vivianite recovery. Environ. Sci. Technol., 2020, 54(17), 10850-10858.

99.   An J, Li N*, Wu Y, Wang S, Liao C, Zhao Q, Zhou L, Li T, Wang X, Feng Y*. Revealing DecayMechanisms of H2O2-based Electrochemical Advanced Oxidation Processes afterLong-term Operation for Phenol Degradation. Environ.Sci. Technol., 2020, 54(17),10916-10925.

100. Li T, Chen F, Zhou Q*, WangX, Liao C, Zhou L, Wan L, An J, Wan Y, Li N. Unignorable toxicity offormaldehyde on electroactive bacteria in bioelectrochemical systems. Environ. Res., 2020, 183, 109143.

101. Brandon TA, Stamps BW, Cummings A, Zhang T, Wang X, Jiang D*. Poised potentialis not an effective strategy to enhance bio-electrochemical denitrificationunder cyclic substrate limitations. Sci.Total Environ., 2020, 713, 136698.

102. 田丽丽, 王鑫*. 地杆菌属微生物在厌氧污水处理中的应用潜力. 给水排水, 46, 201-206.

2019

103. Zhou L, Li T, An J, Liao C, Li N, Wang X*. Efficient regeneration of activated carbonelectrode by half-wave rectified alternating fields in capacitive deionizationsystem. Electrochim. Acta,2019, 298, 372-378

104. Du Q, Cheng T, Liu Y, Li N, Wang X*. The Use of Natural Hierarchical Porous Carbonfrom Artemia Cyst Shells Alleviates PowerDecay in Activated Carbon Air-cathode. Electrochim. Acta, 2019,315, 41-47.

105. Yan Y, Wang X*.EcologicalResponses to Substrates in Electroactive Biofilm: A Review.Sci. China Technol. Sc., 2019, 62(10), 1657-1669.

106. Wan L, Zhou Q*, WangX, Wood TE, Wang L, Duchesne PN, Guo J, Yan X, Xia M, Li YF, Jelle AA,Ulmer U, Jia J, Li T, Sun W*, Ozin GA. Cu2ONanocubes with Mixed Oxidation-State Facets for (Photo)Catalytic Hydrogenationof Carbon Dioxide. Nat. Catal.,2019, 2, 889-898.

107. An J, Li N*, Zhao Q, Qiao Y, Wang S, Liao C, Zhou L, Li T, Wang X, Feng Y*. Highlyefficient electro-generation of H2O2 by adjusting liquid-gas-solidthree phase interfaces of porous carbonaceous cathode during oxygen reduction reaction.Water Res., 2019, 164, 114933.

108. Zhao Q, An J, Wang S, Qiao Y, Liao C, Wang C, Wang X, Li N*. Superhydrophobic Air-breathing Cathodefor Efficient Hydrogen Peroxide Generation through Two-electron Pathway OxygenReduction Reaction. ACS Appl. Mat. Inter., 2019, 11 (38), 35410-35419.

109. An J, Li N*, Wang S, Liao C, Zhou L, Li T, Wang X, Feng Y*. A novelelectro-coagulation-Fenton for energy efficient cyanobacteria and cyanotoxins removalwithout chemical addition. J. Hazard.Mater., 2019, 365, 650-658.

110. Li X, Li Y, Zhao X, Zhang X, Zhao Q, Wang X, Li Y*. Restructured fungal community diversity and biological interactionspromote metolachlor biodegradation in soil microbial fuel cells.Chemosphere, 2019, 221, 735-749.

111. 朱佳轩, 万雨轩, 王鑫*. 不同碳源下硫还原地杆菌对反硝化过程的影响机制探讨. 环境科学学报, 2019, 39(10), 3247-3255.

2018

112.  Du Q, Mu Q, ChengT, Li N, Wang X*. Real-time Imaging Revealed That Exoelectrogensfrom Wastewater Are Selected at the Center of a Gradient Electric Field.Environ. Sci. Technol., 2018, 52, 8939-8946.

113. Liao C, Wu J, Zhou L, Li T, An J, Huang Z, Li N, Wang X*. Repeated TransferEnriches Highly Active Electrotrophic Microbial Consortia on Biocathodes inMicrobial Fuel Cells. Biosens.Bioelectron., 2018, 121, 118-124.

114. Zhou L, Liao C, Li T, An J, Du Q, Wan L, Li N, Pan X, Wang X*.Regenerationof activated carbon air-cathodes by half-wave rectified alternating fields in microbialfuel cells. Appl. Energy, 2018, 219, 199-206.

115.  Li T, Wang X*, Zhou Q, Liao C, Zhou L,Wan L, An J, Du Q, Li N, Ren ZJ*. Swift Acid Rain Sensing by Synergistic Rhizospheric BioelectrochemicalResponses. ACS Sensors, 2018, 3, 1424-1430 (Featured as ACS Editor’s Choice, Most Read 1#, The Economist专题报道).

116. Liao C, Wu J, Zhou L, Li T, Du Q, An J, Li N, Wang X*. Optimal Set of Electrode Potential Enhances the ToxicityResponse of Biocathode to Formaldehyde. Sci.Total Environ., 2018, 644,1485-1492.

117. Wan Y, Zhou L, Wang S, Liao C, Li N, Liu W, Wang X*.SyntrophicGrowth of Geobacter sulfurreducensAccelerates Anaerobic Denitrification. Front.Microbiol., 2018, 9, 1572.

118. Wang S, An J, Wan Y, Du Q, Wang X, Cheng X, Li N*. PhosphorusCompetition in Bioinduced Vivianite Recovery from Wastewater. Environ. Sci. Technol., 2018, 52, 13863-13870

119. Peng X*, Pan X, WangX, Li D, Huang P, Qiu G, Shan K, Chu X. Accelerated removal of highconcentration p-chloronitrobenzene using bioelectrocatalysis process and itsmicrobial communities analysis. Bioresour.Technol., 2018, 249, 844-850.

120. Li X, Zhao Q, WangX, Li Y, Zhou Q*. Surfactants selectively reallocated the bacterialdistribution in soil bioelectrochemical remediation of petroleum hydrocarbons. J. Hazard. Mater., 2018, 344, 23-32.

121. Li C, Guo X*, WangX, Fan S, Zhou Q, Shao H, Hu W, Li C, Tong L, Kumar RR, Huang J.Membrane Fouling Mitigation by Coupling Applied Electric Field in MembraneSystem: Configuration, Mechanism and Performance. Electrochim Acta, 2018, 287,124-134.

2017

122. Du Q, Li T, Li N, WangX*. Protection of Electroactive Biofilm from Extreme Acid Shock byPolydopamine Encapsulation, Environ. Sci.Technol. Lett., 2017, 4, 345-349(Most Read Articles ranking 8#, August 2017)

123. Zhou L, Li T, An J, Liao C, Li N, Wang X*. Subminimal Inhibitory Concentration (Sub-MIC) ofAntibiotic Induces Electroactive Biofilm Formation in BioelectrochemicalSystems. Water Res., 2017, 125, 280-287.

124. An J, Li N*, Wan L, Zhou L, Du Q, Li T, Wang X*. Electric field induced saltprecipitation into activated carbon air-cathode causes power decay in microbialfuel cells. Water Res., 2017, 123, 369-377.

125. Li T, Zhou L, Qian Y, Wan L, Du Q, Li N, Wang X*. Gravity settling of planktonic bacteria to anodes enhancescurrent production of microbial fuel cells. Appl.Energy, 2017, 198, 261-266.

126. Du Q, An J, Li J, Zhou L, Li N, Wang X*. Polydopamine as a new modification material to acceleratestartup and promote anode performance in microbial fuel cells. J. Power Source, 2017, 343, 477-482.

127. Wu J, Chen W, Yan Y, Gao K, Liao C, Li Q, Wang X*. Enhanced oxygen reducingbiocathode electroactivity by using sediment extract as inoculum. Bioelectrochem. 2017, 117, 9-14 (Invited paper in Special Issue “Electroactivemicroorganisms and microbial consortia”).

128. Li X, Wang X,Weng L, Zhou Q, Li Y*. Microbial fuel cell for organic contaminated soil remedialapplication: A review. Energy Technol.,2017, 5, 1156-1164.

129. Lobo, FL, Wang X,Ren ZJ*. Energy harvesting influences electrochemical performance of microbial fuelcells. J. Power Source, 2017, 356, 356-364

130. Li N, An J, Wang X,Wang H, Lu L, Ren ZJ*. Resin-enhanced rolling activatedcarbon electrode for efficient capacitive deionization. Desalination, 2017, 419,20-28.

131. Wan L, Zang G*, WangX, Zhou L, Li T, Zhou Q*. Tiny crystalline grain nanocrystal NiCo2O4/N-dopedgraphene composite for efficient oxygen reduction reaction. J. Power Source, 2017, 345, 41-49.

132. 李骏辉, 王鑫*, 周乐安, 安敬昆, 李田, 武佳丽, 钱亚薇, 周启星. KOH 活化活性炭提升辊压空气阴极微生物燃料电池性能. 环境工程学报, 2017, 11(10), 5387-5392.

2016

133. Wang X, Zhou L, Lu L, LoboFL, Li N, Wang H, Park J, Ren ZJ*. Alternating current influences anaerobic electroactivebiofilm activity. Environ. Sci. Technol.,2016, 50 (17), 9169–9176.

134. Feng C, Liu Y, Li Q, Che Y, Li N, Wang X*. Quaternary ammonium compound in anolyte without functionalizationaccelerates the startup of bioelectrochemical systems using real wastewater. Electrochim. Acta, 2016, 188, 801-808

135. Li N, An J, Zhou L, Li T, Li J, Feng C, Wang X*. A novel carbon black graphite hybrid air-cathodefor efficient hydrogen peroxide production in bioelectrochemical systems. J. Power Source, 2016, 306, 495-502 (Featured by Advances inEngineering).

136. Li T, Wang X*,Zhou L, An J, Li J, Li N, Sun H, Zhou Q*. Bioelectrochemical sensor using livingbiofilm to in situ evaluate flocculant toxicity. ACS Sensors, 2016, 1,1374-1379.

137. Li X, Wang X*,Zhang Y, Zhao Q, Yu B, Li Y, Zhou Q*. Salinity and Conductivity Amendment ofSoil Enhanced the Bioelectrochemical Degradation of Petroleum Hydrocarbons. Sci. Rep., 2016, 6, 32861.

138. Li X, Wang X*,Wan L, Zhang Y, Li N, Li D, Zhou Q*. Enhanced biodegradation of aged petroleumhydrocarbons in soils by glucose addition in microbial fuel cells. J. Chem. Technol. Biotechnol., 2016, 91, 267-275

139. Li X, Wang X*, Zhao Q, Zhang Y, Zhou Q*. In situ representation ofsoil/sediment conductivity using electrochemical impedance spectroscopy. Sensors, 2016, 16(5), 625.

140. Li X, Wang X,Zhao Q, Wan L, Li Y, Zhou Q*. Carbon Fiber Enhanced Bioelectricity Generationin Soil Microbial Fuel Cells. Biosens.Bioelectron., 2016, 85, 135-141.

141. Lu L, Hou D, Wang X,Jassby D, Ren ZJ. Active H2 harvesting prevents Methanogenesis inmicrobial electrolysis cells. Environ.Sci. Technol. Lett., 2016, 3(8):286-290.

2015

142. Li X, Wang X*,Ren ZJ, Zhang Y, Li N, Zhou Q*. Sand amendment enhances bioelectrochemicalremediation of petroleum hydrocarbon contaminated soil. Chemosphere, 2015, 141,62-70.

143. Zhang Y, Wang X*,Li X, Cheng L, Wan L, Zhou Q*. Horizontal arrangement of anodes of microbialfuel cells enhances remediation of petroleum hydrocarbon contaminated soil. Environ.Sci. Pollut. Res., 2015, 22(3),2335-2341

144. Li X, Wang X*,Zhang Y, Gao N, Li D, Zhou Q*. Effects of catalyst layer and gas diffusionlayer thickness on the performance of activated carbon air-cathode formicrobial fuel cells. Int. J.Electrochem. Sci., 2015, 10,5086 - 5100.

145. Wan L, Li X, Zang G*, WangX, Zhang Y, Zhou Q*. A solar assisted microbial electrolysis cell for

hydrogenproduction driven by a microbial fuel cell. RSCAdv. 2015, 5, 82276-82281.

146. 梅卓, 张哲, 王鑫*. 阳极内添加阳离子交换树脂提升辊压“三合一”膜电极MFC性能. 环境科学, 2015,36(11): 4311-4318 （入选首批《环境科学》-中国知网2015年度中文精品学术期刊外文版数字出版工程）.

2014

147.  Wang X,Feng C, Ding N, Zhang Q, Li N, Li X, Zhang Y, Zhou Q*. Accelerated OH-Transport in Activated Carbon Air-cathode by Modification of QuaternaryAmmonium for Microbial Fuel Cells. Environ.Sci. Technol. 2014, 48,4191-4198 (Featured by Advances in Engineering).

148.  Wang X,Tang J, Cui J, Liu Q, Giesy J. P., Hecker M. Synergy of Electricity Generationand Waste Disposal in Solid-State Microbial Fuel Cell (MFC) of Cow ManureComposting. Int. J. Electrochem. Sci.,2014, 9, 3144 - 3157.

149.  Li X, Wang X*, Zhang Y, Ding N, Zhou Q*. Opening size optimizationof metal matrix in rolling-pressed activated carbon air-cathode for microbial fuelcells. Appl. Energy, 2014, 123(15): 13-18.

150.  Li N, Liu Y, An J, Feng C, Wang X*. Bifunctional quaternaryammonium compounds to inhibit biofilm growth and enhance performance for activatedcarbon air-cathode in microbial fuel cells. J.Power Source, 2014, 272, 895-899.

151.  Zhang Y, Wang X*, Li X, Gao N, Wan L, Feng C, Zhou Q*. A novel and highperformance activated carbon air-cathode with decreased volume density and catalystlayer invasion for microbial fuel cells. RSCAdv. 2014, 4, 42577 - 42580.

152.  Li X, Wang X*, Zhang Y, Cheng L, Liu J, Li F, Gao B, Zhou Q*. Extendedpetroleum hydrocarbon bioremediation in saline soil using Pt-free multianodes microbialfuel cells. RSC Adv. 2014, 4, 59803–59808.

153.  Wu Q, Wang X, Zhou Q. Biomonitoringpersistent organic pollutants in the atmosphere with mosses: Performance andapplication. Environ. Int., 2014, 66, 28-37.

154.  Zhao C, Wang W J, Sun D, Wang X, Zhang J R*, Zhu J J*.Nanostructured graphene/TiO2 hybrids as high-performance anodes formicrobial fuel cells. Chem-Eur. J., 2014, 23: 7091-7097.

155.  Feng Y, He W, Liu J, Wang X, Qu Y, Ren N. Ahorizontal plug flow and stackable pilot microbial fuel cell for municipalwastewater treatment. Bioresour. Technol.,2014, 156, 132-138

156.  Yu B B. Wang X, Yu S, Li Q, Zhou Q X*. Effects of roxithromycin on ammonia-oxidizingbacteria and nitrite-oxidizing bacteria in the rhizosphere of wheat. Appl. Microbiol. Biotechnol., 2014,98, 263-272.

157.  He W, Liu J*, Li D, Wang H, Qu Y, Wang X, Feng Y*. Theelectrochemical behavior of three air cathodes for microbial electrochemicalsystem (MES) under meter scale water pressure. J. Power Sources, 2014,267, 219-226.

2013

158.  Wang X,Gao N, Zhou Q. Concentration responses of toxicity sensor with Shewanella oneidensis MR-1 growing in bioelectrochemicalsystems. Biosens. Bioelectron., 2013, 43: 264-267.

159.  Wang X,Gao N, Zhou Q, Dong H, Yu H, Feng Y. Acidic and alkaline pretreatments of activatedcarbon and their effects on the performance of air-cathodes in microbial fuel cells.Bioresour. Technol., 2013, 144, 632-636.

160.  Peng X, Yu H**, Ai L, Li N, Wang X*. Time behavior and capacitance analysis of nano-Fe3O4added microbial fuel cells. Bioresour. Technol., 2013,144, 689-692.

161.  Peng X, Yu H, Yu H**, Wang X*. Lack of anodic capacitancecauses power overshoot in microbial fuel cells. Bioresour. Technol., 2013, 138, 353-358.

162.  Peng X, Yu H**, Wang X*, Gao N, Geng L, Ai L. Enhancedanode performance of microbial fuel cells by adding nanosemiconductor goethite.J. Power Sources, 2013, 223: 94-99.

163.  Dong H, Yu H, Yu H**, Gao N, Wang X*. Enhanced performance ofactivated carbon-polytetrafluoroethylene air-cathode by avoidance of sinteringon catalyst layer in microbial fuel cells.J. Power Sources, 2013, 232:132-138.

164.  Dong H, Yu H*, Wang X*, Zhou Q, Sun J. Carbon-supportedperovskite oxides as oxygen reduction reaction catalyst in single chambered microbialfuel cells. J. Chem. Technol. Biotechnol,2013, 88, 774-778.

165.  Zhao C, Gai P, Liu C, Wang X, Xu H, Zhang J, Zhu J. Polyanilinenetworks grown on graphene nanoribbons-coated carbon paper with synergisticeffect for high-performance microbial fuel cells. J. Mater. Chem. A, 2013,1, 12587-12594.

2012

166.  Wang X,Cai Z, Zhou Q, Zhang Z, Chen C. Bioelectrochemical stimulation of petroleum hydrocarbondegradation in saline soil using U-tube microbial fuel cells. Biotechnol. Bioeng., 2012, 109(2), 426-433.

167.  Dong H, Yu H*, Wang X*. Catalysis kinetics and porousanalysis of rolling activated carbon-PTFE air-cathode in microbial fuel cells. Environ. Sci. Technol., 2012, 46, 13009-13015.

168.  Dong H, Yu H*, Wang X*, Zhou Q, Feng J. A novel structure of scalable air-cathode without Nafion andPt by rolling activated carbon and PTFE as catalyst layer in microbial fuelcells. Water Res., 2012, 46: 5777-5787. (ESI-TOP高引论文（1%）, 环境/生态领域)

169.  Yang Q, Wang X*, Feng Y*, Lee H, Liu J,Shi X, Qu Y, Ren N. Electricity generation using eight amino acids byair-cathode microbial fuel cells. Fuel,2012, 102,478-482.

170.  Peng X, Yu H*, Wang X*, Zhou Q, Zhang S, GengL, Sun J, Cai Z. Enhanced performance and capacitance behavior of anode byrolling Fe3O4 into activated carbon in microbial fuelcells. Bioresour. Technol., 2012, 121: 450-453.

171.  Qu Y, Feng Y, Wang X, Logan B E. Use of a coculture to enable currentproduction by Geobacter sulfurreducens.Appl. Environ. Microb., 2012, 78(9): 3484-3487.

172.  Feng Y, Shi X, Wang X, Lee H, Liu J, Qu Y, HeW, Kumar S M S, Kim B H, Ren N. Effects of sulfide on microbial fuel cells withplatinum and nitrogen-doped carbon powder cathodes. Biosen. Bioelectron. 2012, 35(1): 413-415.

173.  Shi X, Feng Y, Wang X, Lee H, Liu J, Qu Y, HeW, Kumar S M S, Ren N. Application of nitrogen-doped carbon powders as low-costand durable cathodic catalyst to air-cathode microbial fuel cells. Bioresour. Technol., 2012, 108, 89-93.

174.  Qu Y, Feng Y, Wang X, Liu J, Lv J, He W, Logan B E. Simultaneous water desalinationand electricity generation in a microbial desalination cell with electrolyte recirculationfor pH control. Bioresour. Technol., 2012, 106: 89-94.

175.  Liu J, Feng Y, Wang X, Yang Q, Shi X, Qu Y, RenN. The effect of water proofing on the performance of nickel foam cathode inmicrobial fuel cells. J. Power Source,2012, 198: 100-104.

176.  王鑫, 李楠, 高宁圣洁,周启星. 微生物燃料电池碳基阳极材料的研究进展. 中国给水排水, 2012, 28(22): 5-8.

177.  崔晋鑫, 王鑫, 唐景春.微生物燃料电池在固体废物堆肥中的应用进展. 生物工程学报, 2012, 28 (3): 295-304.

2011

178.  Wang X,Feng Y, Liu J, Lee H, Ren N. Performanceof a batch two-chambered microbial fuel cell operated at different anode potentials.J. Chem. Technol. Biotechnol., 2011, 86: 590-594.

179.  Liu J, Feng Y, Wang X, Shi X, Yang Q, Lee H,Zhang Z, Ren N. The use of double-sided cloth without diffusion layers asair-cathode in microbial fuel cells. J.Power Source, 2011, 196 (20), 8409-8412.

180. Feng Y, Yu Y, WangX, Qu Y, Li D, He W, Kim B H. Degradation of raw corn stover powder(RCSP) by an enriched microbial consortium and its community structure. Bioresour.Technol., 2011, 102:742-747.

181. Saito T, Mehanna M, Wang X, CusickR, Feng Y, Hickner M A, Logan B E. Effectof nitrogen addition on the performance of microbial fuel cell anodes. Bioresour. Technol., 2011, 102:395-398.

182. Feng Y, Yang Q, Wang X, Liu Y,Lee H, Ren N. Treatment of biodieselproduction wastes with simultaneous electricity generation using asingle-chamber microbial fuel cell. Bioresour.Technol., 2011, 102: 411-415.

2010

183.  Wang X,Feng Y, Liu J, Shi X, Lee H, Li N, Ren N. Power generation using adjustableNafion/PTFE mixed binders in air-cathode microbial fuel cells. Biosens. Bioelectron., 2010, 26: 946-948

184.  Wang X,Feng Y, Liu J, Lee H, Li C, Li N, Ren N. Sequestration of CO2 dischargedfrom anode by algal cathode in microbial carbon capture cells (MCCs). Biosens. Bioelectron., 2010, 25: 2639-2643

185. Feng Y, Yang Q, Wang X, Logan B E. Treatment of carbon fiber brush anodesfor improving power generation in air-cathode microbial fuel cells. J. Power Source, 2010, 195: 1841-1844 (ESI-TOP高引论文（1%）, 工程领域).

186. Feng Y, Lee H, Wang X, Liu Y, He W, Zhao Q. Continuous electricitygeneration by a graphite granule baffled air-cathode microbial fuel cell. Bioresour. Technol., 2010, 101: 632-638.

187. 冯玉杰, 王鑫, 李贺, 杨俏, 曲有鹏, 史昕欣, 刘佳, 何伟华, 解明利. 基于微生物燃料电池技术的多元生物质生物产电研究进展. 环境科学, 2010, 31(10): 260-266

188. 冯玉杰, 李贺, 王鑫, 何伟华, 刘尧兰. 电化学产电菌的分离及性能评价. 环境科学. 2010, 31(11): 2804-2810.

2009

189.  Wang X, Feng Y, Wang H, Qu Y, YuY, Ren N, Li N, Wang E, Lee H, Logan B E. Bioaugmentationfor electricity generation from corn stover biomass using microbial fuel cells.Environ. Sci. Technol., 2009,43: 6088-6093

190.  Wang X, Cheng S, Feng Y, Merrill MD, Saito T, Logan B E. Use of carbon meshanodes and the effect of different pretreatment methods on power production in microbialfuel cells. Environ.Sci. Technol., 2009,43: 6870-6874 (ESI-TOP高引论文（1%）, 环境/生态领域)

191. Wang X, Feng Y, Ren N, Wang H, Lee H, Li N,Zhao Q. Accelerated start-up of two-chambered microbial fuel cells: effect ofanodic positive poised potential. ElectrochimicaActa, 2009, 54: 1109-1114 ( “Top-25 most cited articles” aspublished in Electrochimica Acta, 2008-2009)

192. Zhang X, Cheng S, Wang X, Huang X, Logan B E.Separator characteristics of increasing performance of microbial fuel cells. Environ. Sci. Technol., 2009, 43: 8456-8461.

193. Feng Y, Lee H, Wang X, Liu Y. Electricity generation in microbial fuel cellsat different temperature and isolation of electrogenic bacteria. Asia-PacificPower and Energy Engineering Conference (APPEEC), 2009 (EI, ISTP).

194. 冯玉杰, 王鑫, 王赫名, 于艳玲, 李冬梅. 以玉米秸秆为底物的纤维素降解菌与产电菌联合产电的可行性. 环境科学学报, 2009, 29(11): 2295-2299.

2008

195. Wang X, Feng Y, Lee H.Electricity production from beer brewery wastewater using single chambermicrobial fuel cell. Water Sci. Technol.,2008, 57(7): 1117-1121.

196. Wang X, Feng Y, Wang E,Li C. Electricity generation using nickel foam solely as biocathodic materialin a two chambered microbial fuel cell. J.Biotechnol., 2008, 137 (3S):S662.

197. Feng Y, Wang X,Logan B E, Lee H. Brewery wastewater treatment using air-cathode microbial fuelcells. Appl. Microbiol. Biotechnol., 2008, 78(5): 873-880.

198. 王鑫, 冯玉杰, 曲有鹏, 李冬梅, 李贺, 任南琪. 温度对啤酒废水微生物燃料电池产电性能的影响. 环境科学, 2008, 29(11): 3128-3132. (EI)

2007

199. 冯玉杰, 王鑫, 李贺, 任南琪. 乙酸钠为基质的微生物燃料电池产电过程. 哈尔滨工业大学学报, 2007, 39(12): 1890-1894. (EI)

博士研究生：

李晓晶，2013-2015，博士毕业，与周启星教授合作，农业部环境保护科研监测所，研究员，首席科学家

万丽丽，2015-2019，博士毕业，与周启星教授合作，南开大学师资博后，内蒙古大学研究员

李田，2016-2019，博士毕业，与周启星教授合作，南开大学师资博后，南开大学副教授

杜青，2015-2018，博士毕业，清华大学深圳研究生院博士后，天津城建大学副教授

廖承美，2016-2020，博士毕业，南开大学师资博后，内蒙古大学教授

周乐安，2017-2020，博士毕业，长沙理工大学副教授，系主任

田丽丽，2018-2022，博士毕业，燕山大学副教授

万雨轩，2019-2023，博士毕业，广州大学博后

闫雪军，2020-2024，博士毕业，西北农林科技大学副教授

武岳，2020-2024，博士毕业，上海海洋大学博后

赵倩，2020-2024，博士毕业，中山大学博后

硕士研究生：

张月勇，2012-2015，硕士毕业，与周启星教授合作，胜利油田森诺胜利工程有限公司

李田，2014-2016，硕士毕业，与周启星教授合作，读博

李骏辉，2014-2017，硕士毕业，与周启星教授合作，中国汽车技术研究中心有限公司汽车工程研究院

冯萃娟，2014-2016，硕士毕业，美国特拉华大学读博，导师Huang C.P.

钱亚薇，2015-2017，硕士毕业，江苏苏美达成套设备工程有限公司，环境修复部市场总监

周乐安，2014-2017，硕士毕业，转博。

成涛，2016-2018，硕士毕业，中建水务环保有限公司（华东分公司）

武佳丽，2015-2018，硕士毕业，中国汽车技术研究中心有限公司汽车工程研究院

万雨轩，2016-2019，硕士毕业，转博

黄宗亮，2017-2019，硕士毕业，广东粤海水务股份有限公司（深圳）

陈帆，2018-2020，硕士毕业，中交第一航务工程局投资事业部

闫雪军，2017-2020，硕士毕业，转博

武岳，2018-2020，直攻博

严雨清，2018-2021，硕士毕业，美国普林斯顿大学读博（导师Zhiyong Jason Ren教授）

杜霖，2019-2022，硕士毕业，美国普林斯顿大学读博（导师Zhiyong Jason Ren教授）

朱佳轩，2019-2022，硕士毕业，哈尔滨工业大学读博（导师：尤世界教授）

朱雪梅，2019-2022，硕士毕业，转博

韩沂琏，2020-2022，硕士毕业，转博

刘滢，2020-2023，硕士毕业，成都市高新区组织部

王晋宁，2020-2023，硕士毕业，转博

王子源，2021-2024，硕士毕业，转博

张佳瑶，2021-2024，硕士毕业，梅花生物科技集团股份有限公司

孙欣怡，2022-2024，硕士毕业，转博

本科生：

高宁圣洁，2012-2013，本科毕业，全奖出国读博，美国俄勒冈州立大学（OSU），导师Hong Liu

虞盛松，2012-2013，本科毕业，中国科学技术大学保研，导师俞汉青教授

冯萃娟，2013-2014，本科毕业，本课题组留校保研

刘轶男，2014-2015，本科毕业，中国科学技术大学保研，导师俞汉青教授

王凯丽，2015-2016，本科毕业，中国科学技术大学保研，导师俞汉青教授

潘晓强，2016-2017，本科毕业，中国科学技术大学保研，导师俞汉青教授

严雨清，2017-2018，本科毕业，本课题组留校保研

高凯琳，2017-2018，本科毕业，北京大学保研，导师陆雅海教授

朱佳轩，2018-2019，本科毕业，本课题组留校保研

顾朝海，2018-2019，本科毕业，中国科学技术大学保研，导师俞汉青教授

牛犇，2019-2020，本科毕业，中国科学院大学保研，导师郝郑平教授

陈慧玲，2019-2020，本科毕业，上海高等技术研究院读研

刘宏志，2020-2021，本科毕业，中国科学技术大学保研，导师俞汉青教授

蒋永恒，2020-2021，本科毕业，北京大学保研，导师鲁安怀教授、刘娟教授

廖洋，2020-2021，本科毕业，清华大学保研，导师刘锐平教授

刘睿哲，2020-2021，本科毕业，清华大学保研，导师李炳教授

张佳瑶，2020-2021，本科毕业，本课题组留校保研

王子源，2020-2021，本科毕业，本课题组留校保研

宋金童，2021-2022，本科毕业，北京大学保研，导师杨武霖研究员

任媛媛，2021-2022，本科毕业，北京大学保研，导师刘娟教授

李昊潼，2021-2022，本科毕业，中国科学技术大学保研，导师俞汉青教授

蒋娜娜，2021-2022，本科毕业，南开大学读研，导师周启星教授

杨阳，2021-2022，本科毕业，浙江大学保研，导师胡宝兰教授

王方舟，2022-2023，本科毕业，清华大学保研，导师刘锐平教授

仲子涵，2022-2023，本科毕业，北京大学保研，导师左魁昌研究员

闫文卿，2022-2023，本科毕业，本课题组留校保研

蒙昕仪，2022-2023，本科毕业，英国曼彻斯特大学读研

姜凤羽，2023-2024，本科毕业，本课题组留校保研

萧祺兵，2023-2024，本科毕业，中国科学技术大学保研，导师刘贤伟教授

(1)    2024年获中国城镇供水排水协会首届水业青年优秀论文一等奖、最佳技术创新奖。

(2)    2023年获国家级教学成果二等奖（排名第4）：环境类融合创新卓越工程师人才培养体系构建与实践。

(3)    2023年获教育部自然科学二等奖《微生物电化学活性炭自呼吸阴极的构建及低耗污染治理原理》，完成人：王鑫，周启星，李楠，于宏兵，董恒（排名第1）。

(4)    2022年当选英国皇家化学会会士（Fellow of RSC）。

(5)    2022年获天津市教学成果特等奖（排名第4）。

(6)    2022年获天津市优秀工程专业学位硕士论文（黄宗亮）指导教师。

(7)    2022年获南开大学教学成果一等奖（《“新工科”背景下环境工程创新性“卓越工程师”人才培养体系构建与实践》排名第3）、二等奖（《“多元融合、以赛促学”的复合型环保人才培养模式》排名第4）。

(8)    2022年获南开大学“优秀班导师”。

(9)    2021年入选天津市课程思政教学名师和教学团队（参讲《环境学基础》）。

(10)  2021年获中国环境科学学会青年科学家金奖。

(11)  2021年入选全球顶尖前10万科学家。

(12)  2020年入选全球前2%顶尖科学家年度影响力（Single year impact）榜单（美国斯坦福大学与Elsevier旗下Mendeley Data发布）

(13)  2020年获南开大学教学成果一等奖（排名第三）：“新工科”背景下，环境工程创新性“卓越工程师”人才培养体系构建与实践，鲁金凤，展思辉，王鑫，张伟刚，孙桂玲，黄津辉，唐雪娇，杨丽萍，卢会霞，王雁南

(14)  2020年获天津市杰出青年基金

(15)  2020年《水污染控制工程2-1》获首批国家级一流本科课程（参讲，线上线下混合式一流课程）

(16)  2019年获国家优秀青年科学基金

(17)  2019年入选“131”天津市创新型人才培养工程第二层次人选

(18)  2019年入选具有“公能”特色的“环境工程专业认证”天津市教学团队骨干

(19)  2018年获首创水星奖（前沿科学类二等奖）

(20)  2018年获天津市教学成果一等奖（排名第六）

(21)  2018年获南开大学“良师益友”奖

(22)  2017年获南开大学教学成果一等奖（排名第五）

(23)  2016年入选“环境科学专业课程”天津市教学团队骨干（团队负责人：周启星）

(24)  2015年入选天津市创新人才推进计划-青年科技优秀人才

(25)  2015年获得美国化学学会三年荣誉会员奖（3 year membership award）

(26)  2014年入选南开大学“百名青年学科带头人培养计划”

(27)  2014年获第六届南开大学“敬业”奖教金教学二等奖

(28)  2013年获黑龙江省科学技术二等奖：《基于废水处理的微生物电化学系统构建与关键问题研究》，完成人：冯玉杰、任南琪、王鑫、曲有鹏、刘佳（排名第三）

(29)  2013年入选“131”天津市创新型人才培养工程第三层次人选

(30)  2013年入选教育部创新团队学术骨干（团队负责人：周启星）

(31)  2013年获中国自然资源学会青年科技奖（中国自然资源学会）

(32)  2012年获得Scopus青年科学之星-环境科学领域银奖（中国科学报社、爱思唯尔科技部）

(33)  2012年获得全国百篇优秀博士学位论文提名奖（教育部）

(34)  2011年获哈尔滨工业大学优秀博士学位论文奖（哈尔滨工业大学）

(35)  2010年获上海同济高廷耀基金会青年博士生杰出人才奖（同济大学）

(36)  2010年获“奥加诺”（水质与水环境）一等奖（中科院生态中心）

(37)  2010年获宇星科技环境工程一等奖（哈尔滨工业大学）

(38)  2010年哈尔滨工业大学优秀毕业生（哈尔滨工业大学）

(1)    2024年指导的本科生姜凤羽获校级优秀本科毕业论文/设计。

(2)    2023年指导的本科生王方舟获校级优秀本科毕业论文/设计。

(3)    2023年指导的王子源、韩沂涟、李傲然、萧祺兵、孟笑朵、陈梓樱项目《稳定高效的BOD实时在线传感器》获得北控水务杯最佳创意奖（全国2项）。

(4)    2022年指导的博士生武岳获国家奖学金。

(5)    2022年获第七届天津市大学生环境学科创新与实践能力邀请赛优秀指导教师奖。

(6)    2021年指导的硕士生黄宗亮毕业论文《基于硝酸盐废水生物电化学氨化耦合微生物电解法回收氮的研究》获天津市工程专业学位优秀学位论文。

(7)    2021年指导的博士生闫雪军获第十五届全国环境博士生学术会议口头报告优秀奖。

(8)    2021年指导的硕士生朱佳轩获国家奖学金。

(9)    2021年指导本科生王子源、刘睿哲、蒋永恒获得校级优秀本科毕业论文/设计，廖洋、刘宏志获得院级优秀本科毕业论文/设计。

(10)  2021年获第三届“北控水务杯”大赛优秀指导教师奖。

(11)  2020年指导王子源、蒋永恒、刘宏志和刘鑫宁获第四届“深水杯”全国大学生给排水科技创新大赛创意赛团体三等奖。

(12)  2020年获全国大学生市政环境类创新实践能力第二届“北控水务杯”大赛优秀指导教师奖。

(13)  2020年指导的本科生《微生物电解池传感器的应用与推广项目》获2020青年“生态创想，绿色行动”环保大赛三等奖。

(14)  2020年指导的博士生赵倩获全国环境博士生论坛-海报展示特等奖（共2人）。

(15)  2020年指导的硕士生严雨清获国家奖学金。

(16)  2020年获第十三届全国大学生创新创业年会优秀指导教师奖。

(17)  2020年指导的本科生蒋永恒等国创项目获第十三届全国大学生创新创业年会“最佳创意”奖

(18)  2020年指导牛犇获得南开大学校优秀毕业设计。

(19)  2019年指导顾朝海毕业设计《天津市宁河区6万吨/天污水处理厂工艺设计》获得2019年度全国高校环境类专业本科生优秀毕业设计。

(20)  2019年指导李田、陈炳宏、廖洋、李元浩、马宁辰、张佳瑶获得中国“互联网+”大学生创新创业大赛天津赛区比赛高教主赛道二等奖

(21)  2019年指导的“微生物电池传感器在水质检测方面的应用”项目获得“子牙杯”第一届天津市大学生生态环保创新大赛特等奖。

(22)  2019年指导本科生陈炳宏、廖洋、张佳瑶、马宁辰获得南开大学第四届“梦想+”创新创业大赛一等奖

(23)  2019年与王婷一起指导本科生刘宏志、任家琪、王子源、乔可心、杨天志获第四届全国大学生“环境风云”实验大赛团体一等奖

(24)  2018年指导本科生严雨清获南开大学校优秀学士学位论文

(25)  2018年指导博士生廖承美获得研究生国家奖学金

(26)  2018年指导博士生廖承美获得天南大博士生论坛口头报告二等奖

(27)  2017年指导博士生李田获得天南大博士生论坛口头报告一等奖

(28)  2017年指导博士生周乐安获得第九届全国环境化学大会优秀展报奖，博士生李田获得JES冠名的优秀展报奖（共10人）

(29)  2017年指导博士生杜青、李田获得研究生国家奖学金

(30)  2017年指导本科生严雨清、高凯琳、陈文姗获得南开大学本科生创新科研优秀项目校级一等奖

(31)  2016年指导硕士生周乐安获南开大学校优秀硕士学位论文

(32)  2016年指导本科生王凯丽获南开大学校优秀学士学位论文

(33)  2016年指导本科生关辽、梅卓等获得国家大学生创新项目训练计划校级一等奖

(34)  2015年指导硕士研究生冯萃娟获得首届北京大学唐孝炎环境科学创新奖学金三等奖

(35)  2015年指导本科生刘轶男获南开大学院优秀学士学位论文

(36)  2014年指导本科生冯萃娟获天津市普通高校优秀毕业设计(论文)奖

(37)  2014年指导本科生冯萃娟获南开大学校优秀学士学位论文

(38)  2014年指导本科生冯萃娟、刘轶男获得 “万华化学第一届创新应用大赛”二等奖

(39)  2014年指导3名本科生获得了“生态创想-绿色行动”全国大学生环保大赛一等奖

(40)  2013年首届“知行南开”研究生课外学术作品竞赛一等奖项目指导教师

(41)  2013年指导本科生高宁圣洁获南开大学校优秀学士学位论文

(42)  2013年带领南开大学5名本科生获得了世界青年工程师大赛（新加坡）铜牌。 Mentor of Nankai University (5 undergraduates),Young Engineer’s Competition, World Engineers Summit 2013. Second runner-up.

(43)  2013年指导3名本科生获得了环境与新能源国际大赛一等奖和最佳展报奖。

(44)  2013年协助指导的博士生彭新红获得上海同济高廷耀基金会青年博士生杰出人才奖学金。