（1） 中国农科院农业绿色低碳基础科学研究中心(CAAS-CSGLCA-202502)，菜地抗生素及抗性基因多源微生物消减机制，2025/01-2029/12，500万元，主持

（2）  国家自然科学基金面上项目(42477041)，土壤内源碳介导生物电流刺激抗生素降解机制，2025/01-2028/12，62万，主持

（3）  国家重点研发计划课题(2024YFD1701105)，集约化蔬菜产区面源污染综合防控及绿色发展技术模式与示范应用，2024/12-2027/11，356万，主持

（4）  天津市自然科学基金重点项目(23JCZDJC00480)，碳介导农田土壤生物电子转移强化抗生素及其抗性基因的消减机制，2023/10-2026/09，20万，主持

（5）  天津市生态环境局(TGPC-2024-D-0228)，天津市典型耕地土壤污染成因排查与分析项目，2024/05-2024/12，54万，主持

（6）  中国农科院级优秀青年人才项目，土壤生物电子的环境效应，2024/01-2028/12，400万，主持

（7）  中国农科院农业绿色低碳基础科学研究中心(CAAS-CSGLCA-202302)，设施菜地典型新污染物与重金属环境风险阈值及绿色长效阻控机制研究，2023/01-2027/12，420万，参与

（8）  天津市生态环境局 (TGPC-2021-0622)，天津市疑似风险工业用地与设施农业用地土壤污染调查项目查，2021/11-2022/10，255万，主持

（9）  国家自然科学基金面上项目(41977133)，铁介导石油烃污染土壤生物电化学修复机理研究，2020/01-2023/12，74万，主持

（10）  天津市自然科学基金面上项目(20JCYBJC01590)，构建土壤电子传递网促进石油烃降解的生物学过程与机制，2020/04-2023/03，10万，主持

（11）  国家自然科学基金青年项目(41601536)，生物电流驱动土壤石油烃降解偶联氮转化机制研究，2017/01-2019/12，22万，主持

（12） 天津市自然科学基金青年项目(16JCQNJC08800)，微生物燃料电池修复石油烃污染土壤及其氮转化研究，2016/04-2019/03，6万，主持

（13）  农业农村部环境保护科研监测所基础前沿项目(2021-jcqyrw-lxj)，基于土壤生物电流刺激促进有机污染物降解生物学过程与机制，2021/05-2023/05，42万，主持

（14） 中央级公益性科研院所基本科研业务费专项资金(2020-jbkyywf-lxj)，土壤铁矿物介导石油烃微生物电化学降解机制，2020/03-2021/03，8万，主持

（15） 中央级公益性科研院所基本科研业务费专项资金(2019-jbkyywf-lxj)，微生物电化学系统消减抗生素及抗性基因研究，2019/04-2020/04，10万，主持

（16） 中央级公益性科研院所基本科研业务费专项资金(2018-jbkyywf-lxj)，PAHs污染土壤生物电流刺激修复机理研究，2018/01-2018/12，10万，主持

（17） 中央级公益性科研院所基本科研业务费专项资金(2017-jbkyywf-lxj)，PAHs污染农田土壤生物电化学修复机理研究，2017/01-2017/12，13万，主持

（18）环境污染过程与基准教育部重点实验室开放课题(2017-05)，PAHs污染土壤微生物电化学原位修复机理研究，2017/01-2018/12，4万，主持

（19） 国家重点研发计划课题(2017YFD0800704)，农田酞酸酯、抗生素和激素等污染的综合调控防治技术与产品研发，2017/07-2021/06，373万，执行负责

（20） 公益性行业（农业）科研专项子课题(201503107-7)，有机化学品污染农田生物协同强化修复技术研发与应用，2015/01-2019/12，140万，执行负责

发表论文：

(1) Xin Yu, Yan Xu, Xiaolin Zhang, Side Yang, Xiaodong Zhao, Penghui Li, Chengxi Li, Jirui Zhao, Xiaojing Li*.Synchronously accelerated petroleum hydrocarbon removal in soil and leachate bythe bioelectrochemical systems for over 1200 days, Electrochimica Acta, 2025, 518: 145746.

(2)  Yuewei Yang, Side Yang, Jialu Sun, Yun Zhang, Xin Yu, Penghui Li*, Xiaolin Zhang, Xiaojing Li*.Accelerating electron transfer reduces CH4 and CO2 emissionsin paddy soil, Journal of Environmental Management, 2025, 374: 124044.

(3)Xin Yu, Xiaolin Zhang, Side Yang, Xiaodong Zhao, Kai Wang, IranziEmile Rushimisha, Ziyuan Zhou, Xiaojing Li*, Yongtao Li.Promoting soil management ways: Bioelectrochemical technology, Resources,Environment and Sustainability, 2025, 19: 100191.

(4)Yun Zhang, Yuewei Yang, Xin Yu, Side Yang, Jialu Sun, Tao Sun, Xiaolin Zhang, Huike Ye, Yuebing Sun*, Xiaojing Li*.Biocurrent regulates the mercury transformation in paddy soil, Journal ofCleaner Production, 2025, 489: 144657.

(5)  Pinpin Yang, Changwen Shi, Xiaojing Li*, Xiaolin Zhang, Huike Ye, Yujie Zhu, Weihua He*, Yujie Feng.Fe-N doping boosts the performance of extracellular electron transfer fromlignocellulose reconstruction-based microbe-electrode in microbialelectrochemical systems, Chemical Engineering Journal, 2025, 503: 158276.

(6)  Xiaodong Zhao, Qingqing Qiao,Xiaorui Qin, Pengyu Zhao, Xiaojing Li*, Jun Xie, Feihong Zhai*, YongtaoLi. Viral community and antibiotic resistance genes carried by virus in soil microbialfuel cells, Science of the Total Environment, 2024, 955: 177260.

(7)  Iranzi Emile RUSHIMISHA, Huike Ye, Side Yang, Xin Yu,Mohan Bai, Yali Chen, Benjamin Manirakiza, Xiaojing Li*, Yongtao Li. Non-sealedwater hastens the efficiency of microbial electrochemical remediation system,Journal of Cleaner Production, 2024, 468:143008.

(8)  Yan Xu, Dandan Zhang, Houyu Li,Huike Ye, Mohan Bai, Gaofei Jiang*, Xiaojing Li*. Unraveling thedeterminants of antibiotic resistance evolution in farmland underfertilizations, Journal of Hazardous Materials, 2024,474: 134802.

(9)  Side Yang, Kai Wang, Xin Yu, YanXu, Huike Ye, Mohan Bai, Lixia Zhao, Yang Sun, Xiaojing Li*, Yongtao Li*. Fulvic acid morefacilitated the soil electron transfer than humic acid, Journal of HazardousMaterials, 2024, 469: 134080.

(10) Yang Side, Li Danfeng, Yu Xin, BaiMohan, Ye Huike, Sun Yang, Zhao Lixia, Chen Yali, Li Xiaojing*, Li Yongtao. Response ofbiocurrent conduction to soil microenvironment, ElectrochemistryCommunications, 2024, 161: 107681.

(11) Rushimisha Iranzi Emile, LiXiaojing*, Han Ting, Chen Xiaodong, Abdoul Salam Issiaka Abdoul Magid, SunYan, Li Yongtao*. Application of biochar on soil bioelectrochemicalremediation: behind roles, progress, and potential, Critical Reviews inBiotechnology, 2024, 44:1, 120-138.

(12) Zhao Xiaodong, Qin Xiaorui, JingXiuqing, Wang Teng, Qiao Qingqing, Li Xiaojing*, Yan Pingmei, Li Yongtao. Key genes of electrontransfer, the nitrogen cycle and tetracycline removal in bioelectrochemicalsystems, Biotechnology for Biofuels and Bioproducts, 2023, 16:174.

(13) Wang Kai, Yang Side, Yu Xin, LiuYonghong, Bai Mohan, Xu Yan, Weng Liping, Li Yongtao, LiXiaojing*.Effect of microplastics on the degradation of tetracycline in a soil microbialelectric field, Journal of Hazardous Materials, 2023,460: 132313.

(14) Wang Kai, Yang Side, Yu Xin, BaiMohan, Ye Huike, Xu Yan, Zhao Lixia, Wu Dan*, Li Xiaojing*, Weng Liping, Li Yongtao,Microplastics degradation stimulated by in-situ bioelectric field inagricultural soils, Environment International, 2023,177: 108035.

(15) Rushimisha Iranzi Emile, LiXiaojing*,Han Ting, Chen Xiaodong, Wang Kai, Weng Liping, Li Yongtao. Effect of fresh andaged biochar on electrogenic hydrocarbon degradation in soil microbialelectrochemical remediation, Electrochimica Acta, 2023, 440: 141713.

(16) Han Ting, Chen Xiaodong, Wang Kai,Rushimisha Iranzi Emile, Yu Xin, Yang Side, Ye Huike, Li Yongtao, LiXiaojing*.Electron transfer by ion conductance in a soil bioelectric field, SustainableEnergy Technologies and Assessments, 2023,55: 102902. 2023.2.

(17) Wang Kai, Han Ting, Chen Xiaodong,Rushimisha Iranzi Emile, Liu Yonghong, Yang Side, Miao Xinyu, Li Xiaojing*,Weng Liping, Li Yongtao. Insights into behavior and mechanism of tetracyclineadsorption on virgin and soil-exposed microplastics. Journal of HazardousMaterials. 2022, 440:129770.

(18) Han Ting, Wang Kai, Rushimisha IE,Ye Huike, Sun Yang, Zhao Lixia, Weng Liping, Li Yongtao, Li Xiaojing*.Influence of biocurrent self-generated by indigenous microorganisms on soilquality. Chemosphere. 2022, 307:135864.

(19) Zhang Yi, Haris Muhammad, ZhangLei, Zhang Chao, Wei Ting, Li Xiang, Niu Yuhua, Li Yongtao, Guo Junkang*, LiXiaojing*. Amino-modified chitosan/gold tailings composite for selectiveand highly efficient removal of lead and cadmium from wastewater, Chemosphere, 2022, 308: 136086.

(20) Chen Xiaodong, Han Ting, MiaoXinyu, Zhang Xiaolin, Zhao Lixia, Sun Yang, Ye Huike, Li Xiaojing*, LiYongtao*. Ferrihydrite enhanced the electrogenic hydrocarbon degradation insoil microbial electrochemical remediation, Chemical Engineering Journal, 2022, 446: 136901

(21) Zhang Xiaolin, Li Xiaojing*,Chen Xiaodong, Sun Yang, Zhao Lixia, Li Tian, Han Ting, Weng Liping, Li Yongtao*.A nitrogen supplement to regulate the degradation of petroleum hydrocarbons insoil microbial electrochemical remediation. Chemical Engineering Journal, 2021, 426: 131202.

(22) Chen Xiaodong, Li Xiaojing*,Li Yue, Zhao Lixia, Sun Yang, Iranzi Emile RUSHIMISHA, Han Ting, Weng Liping,Lin Xueming*, Li Yongtao. Bioelectric field drives ionmigration with the electricity generation and pollutant removal. EnvironmentalTechnology & Innovation, 2021, 24: 101901.

(23) Zhao Xiaodong, Li Xiaojing*,Li Yue, Zhang Xiaolin, Zhai Feihong, Ren Tianzhi, Li Yongtao*. Metagenomicanalysis reveals functional genes in soil microbial electrochemical removal oftetracycline. Journal of Hazardous Materials, 2021, 408: 124880.

(24) Li Xiaojing*, Zhang Xiaolin, Chen Xiaodong, ZhaoLixia, Sun Yang, Iranzi Emile RUSHIMISHA, Li Yongtao*. Effect ofintroduced-electrode on phenanthrene degradation in the soil microbialelectrochemical remediation. International Journal of Energy Research, 2021, 45(3): 4681-4693.

(25) Hao Dacheng#, Li Xiaojing#,Xiao Peigen, Wang Lianfeng*. The utility of electrochemical systems inmicrobial degradation of polycyclic aromatic hydrocarbons: discourse, diversityand design. Frontiers in Microbiology, 2020,11:557400.

(26) Li Xiaojing, Li Yue, Zhang Xiaolin, Zhao Xiaodong, ChenXiaodong, Yongtao Li*. The metolachlor degradation kinetics and bacterialcommunity evolution in the soil bioelectrochemical remediation. Chemosphere,2020, 248, 125915.

(27) Zhang Xiaolin, Li Xiaojing*, ZhaoXiaodong,Chen Xiaodong, Zhou Bin, Weng Liping, Li Yongtao*. Bioelectric field acceleratesthe conversion of carbon and nitrogen in soil bioelectrochemical systems. Journalof Hazardous Materials, 2020, 388: 121790.

(28) Li Xiaojing, Li Yue, Zhao Lixia, Sun Yang, Zhang Xiaolin, ChenXiaodong, Weng Liping and Li Yongtao*. Efficient removal of butachlor andchange in microbial community structure in single-chamber microbial fuel cells.International Journal of Environmental Research and Public Health, 2019, 16: 3897.

(29) Zhao Xiaodong, Li Xiaojing*,Li Yue, Sun Yang, Zhang Xiaolin, Weng Liping, Ren Tianzhi, Li Yongtao*. Shiftinginteractions among bacteria, fungi and archaea enhance the removal ofantibiotics and antibiotic resistance genes in soil microbial fuel cells. Biotechnologyfor Biofuels, 2019, 12:160.

(30) Zhang Xiaolin, Li Xiaojing*, ZhaoXiaodong, Li Yongtao*. Factors affecting the efficiencyof a bioelectrochemical system: a review. RSC Advances,2019, 9:19748.

(31) Li Xiaojing, Zhang Xiaolin, Zhao Xiaodong, Yu Binbin, WengLiping, Li Yongtao*. Efficient removal of metolachlor and bacterial communityof biofilm in bioelectrochemical reactors. Applied Biochemistry andBiotechnology, 2019, 189(2): 384395.

(32) Zhao Xiaodong, Li Xiaojing*,Zhang Xiaolin, Li Yue, Weng Liping, Ren Tianzhi, Li Yongtao*. Bioelectrochemicalremoval of tetracycline from four typical soils in China: a performanceassessment. Bioelectrochemistry, 2019,129: 26-33.

(33) Li Xiaojing, Li Yue, Zhao Xiaodong, Zhang Xiaolin, Zhao Qian,Wang Xin, Li Yongtao*. Restructured fungal community diversity and biologicalinteractions promote metolachlor biodegradation in soil microbial fuel cells. Chemosphere, 2019, 221: 735-749.

(34) Li Xiaojing*, Li Yue, Zhang Xiaolin, Zhao Xiaodong, Sun Yang,Weng Liping, Li Yongtao*. Long-term effect of biochar amendment on thebiodegradation of petroleum hydrocarbons in soil microbial fuel cells. Scienceof the Total Environment, 2019, 651:796-806.

(35) Li Yue, Li Xiaojing*, SunYang, Zhao Xiaodong, Li Yongtao*. Cathodic microbial community adaptation tothe removal of chlorinated herbicide in soil microbial fuel cells. EnvironmentalScience and Pollution Research, 2018, 25(17),16900-16912.

(36) Li Xiaojing, Zhao Qian, Wang Xin, Li Yongtao, Zhou Qixing*.Surfactants selectively reallocated the bacterial distribution in soilbioelectrochemical remediation of petroleum hydrocarbons. Journal ofHazardous Materials, 2018, 344: 23-32.

(37) Li Xiaojing, Li Yue, Zhao Xiaodong, Weng Liping, Li Yongtao*.Cation accumulation leads to the electrode aging in soil microbial fuel cells. Journalof Soils and Sediments, 2018, 18 (3),1003-1008.

(38) Li Xiaojing, Wang Xin, Weng Liping, Zhou Qixing, Li Yongtao*.Microbial fuel cell for organic contaminated soil remedial application: areview. Energy Technology, 2017,5(8): 1156-1164.

(39) Li Xiaojing, Wang Xin*, Zhang Yueyong, Zhao Qian, Yu Binbin, LiYongtao, Zhou Qixing*. Salinity and conductivity amendment of soil enhanced thebioelectrochemical degradation of petroleum hydrocarbons. Scientific Reports,2016, 6: 32861.

(40) Li Xiaojing*, Wang Xin, Zhao Qian, Wan Lili, Li Yongtao, ZhouQixing*. Carbon fiber enhanced bioelectricity generation in soil microbial fuelcells. Biosensors & Bioelectronics, 2016, 85: 135-141.

(41) Li Xiaojing, Wang Xin*, Zhao Qian, Zhang Yueyong, Zhou Qixing*.In situ representation of soil/sediment conductivity using electrochemicalimpedance spectroscopy. Sensors, 2016, 16(5): 625.

(42) Li Xiaojing, Wang Xin*, Wan Lili, Zhang Yueyong, Li Nan, LiDesheng, Zhou Qixing*. Enhanced biodegradation of aged petroleum hydrocarbonsin soils by glucose addition in microbial fuel cells. Journal of ChemicalTechnology and Biotechnology, 2016, 91(1): 267-275.

(43) Li Xiaojing, Wang Xin*, Zhang Yueyong, Gao Ningshengjie, LiDesheng, Zhou Qixing*. Effects of catalyst layer and gas diffusion layerthickness on the performance of activated carbon air-cathode for microbial fuelcells. International Journal of Electrochemical Science, 2015, 10: 5086-5100.

(44) Li Xiaojing, Wang Xin*, Jason Ren Zhiyong, Zhang Yueyong, ZhouQixing*. Sand amendment enhances bioelectrochemical remediation of petroleumhydrocarbon contaminated soil. Chemosphere, 2015,141: 62-70.

(45) Li Xiaojing, Wang Xin*, Zhang Yueyong, Ding Ning, Zhou Qixing*.Opening size optimization of metal matrix in rolling-pressed activated carbonair–cathode for microbial fuel cells. Applied Energy, 2014, 123: 13-18.

(46) Li Xiaojing, Wang Xin*, Zhang Yueyong, Cheng Lijuan, Liu Jie,Li Fan, Gao Bingli, Zhou Qixing*. Extended petroleum hydrocarbon bioremediationin saline soil using pt-free multianodes microbial fuel cells. RSC Advances,2014, 4: 59803-59808.

(47) 李晓晶，熊明民. 推进农田新污染物防控，支撑美丽中国建设. 农业环境科学学报，2024，43(5):963-964。

(48) 赵晓东，乔青青，秦宵睿，李晓晶*，李永涛. 近15年我国土壤抗生素污染特征与生物修复研究进展. 环境科学，2023, 44(7): 4059-4076.

(49) 赵晓东, 赵鹏宇, 李晓晶*, 燕平梅, 任天志, 李永涛. 土壤真菌对威百亩熏蒸的响应特征. 农业环境科学学报, 2021, 40(3):589-599.

(50) 赵晓东，李晓晶*，赵鹏宇，宋敏丽，燕平梅，任天志，李永涛. 土壤微生物电化学系统降解四环素的机理，中国环境科学, 2021, 41(2): 778-786.

(51) 李晓晶，赵倩，张月勇，王鑫，万丽丽，李永涛. 微生物燃料电池修复石油污染盐碱土壤，环境工程学报, 2017,11(2): 1185-1191.

参与著作：

（1）   冯玉杰、任南琪、李达、何伟华等著. 《微生物电化学原理与应用》，科学出版社(ISBN: 9787030726544)，2022.7

（2）   李保国、李永涛、任图生、王朝辉、徐建明等译.《SoilSampling and Methods of Analysis》，电子工业出版社 (ISBN:9787121419089) ，2022.2

（3）   周启星、刘家女、薛生国等著. 《污染环境修复实践与案例》，化学工业出版社(ISBN978-7-122-37446-2)，2021.2

（4）   农业农村部科技教育司. 《世界农业科技前沿》，中国农业出版社(ISBN978-7-109-24513-6)， 2018.11

（5）   李永涛、李文彦等. 《耕地质量建设与理论技术》，科学出版社(ISBN 978-7-03-052386-0)，2017.3

（6）   蔡燕飞，李永涛等. 《芽孢杆菌生物肥及其研究方法》，中国农业出版社(ISBN978-7-109-22639-5)， 2017.3

授权发明专利：

（1）  李晓晶，李永涛，李月，张晓林，赵晓东. 一种从石油烃污染盐碱土中回收电能且同步脱盐的装置和方法：中国，专利号：ZL 201811630719.8. 授权公布日：2022-4-12.

（2）  李晓晶，张晓林，李月，陈晓东，李永涛. 一种土壤微生物电化学修复装置及修复方法和应用：中国，专利号：ZL 201911154414.9，授权公布日：2021-06-25.

（3）  李晓晶, 周启星, 张月勇, 王鑫, 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: 中国, 专利号：ZL 2015 1 0594544.X. 授权公布日：2018-1-16.

（4）  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: 中国, 专利号：ZL 2014 1 0140586.1. 授权公布日：2015-07-08.

（5）  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: 中国, 专利号：ZL 2013 1 0402937.7. 授权公布日：2016-01-27.

（6）  张月勇, 李晓晶, 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: 中国, 专利号：ZL 2013 1 0745120.X. 公布日：2015-10-28.

（7）  程立娟，周启星,王亚男，蔡章，李晓晶, 张月勇. 一种利用野生观赏植物大滨菊修复石油污染土壤的方法: 中国, 专利号：ZL 2014 1 0212852.7. 授权公布日：2016-01-20.

（8）  程立娟，周启星, 蔡章，王亚男，李晓晶, 张月勇. 一种利用野生观赏植物马蔺修复石油污染土壤的方法: 中国, 专利号：ZL 2014 1 0212851.2. 授权公布日：2015-11-25.

（9）  孙扬，李永涛，赵丽霞，郝月崎，徐会娟，李晓晶，周斌. 降解异丙甲草胺的草酸青霉及其应用，中国，专利号ZL 201810762390.4，授权公布日：2019-10-29.

（10） Li Xiaojing, Zhang Xiaolin, Li Yue, Chen Xiaodong, Li Yongtao. Tubularactivated carbon air cathodes, devices for soil microbial electrochemicalremediation and remediation method and application thereof, Netherlands: 2029216,2022-10-20.

指导硕博士研究生：

2015级：李月（沈阳农业大学联培）

2016级：赵晓东

2017级：张晓林

2018级：无

2019级：陈晓东、王凯、Iranzi

2020级：韩婷

2021级：杨思德、于鑫、陈永刚（天津理工大学联培）

2022级：杨玥玮（天津理工大学联培）、孙嘉璐（东北大学联培）、张云（东北农业大学联培）、石昌文（华中农业大学联培）

2023级：邢姝含、陆佳俊（天津理工大学联培）、陈方慧（中国石油大学联培）

2024级：于鑫、钟鹏举、张琪（中国石油大学联培）、赵思涵（河北工程大学联培）、曾毅（河南师范大学联培）