教育经历：

2012.08-2016.01，澳大利亚悉尼大学，农业与环境学院，环境科学，博士

2010.09-2012.06，中国农业大学，水利与土木工程学院，水文学及水资源，硕士

2006.09-2010.07，中国农业大学，水利与土木工程学院，水利水电工程，学士

主要工作经历：

2025.09至今，北京师范大学，水科学研究院，副研究员

2020.07-2025.08，北京师范大学，水科学研究院，讲师

2018.09-2020.06，北京大学，城市与环境学院，博士后

2017.05-2018.09，齐鲁工业大学（山东省科学院），新材料研究所，副研究员

2016.05-2017.05，山东省科学院，新材料研究所，副研究员

主要研究领域：

[1]     土壤重金属生物有效性长效调控

[2]     流域重金属迁移转化和生物效应

[3]     生态脆弱区土壤改良与植被恢复

[4]     环境污染物健康风险精细化评估

代表性研究项目：

[1]     国家重点研发计划课题，2023YFC3708704，“土壤与地下水多要素协同的污染物暴露模型构建”之子课题4“土壤-地下水多要素协同作用下敏感受体剂量-效应关系研究”，2023.12-2027.11，主持

[2]     中国辐射防护研究院平台开放基金资助项目，老化过程对煤矸石中放射性核素迁移转化的影响机理研究，2025.09-2026.08，主持

[3]     横向项目，红水河流域COⅠ基因条形码数据库构建，2025.02-2026.02，主持

[4]     国家自然科学基金联合基金项目，U2167211，三维裂隙流对放射性核素迁移的影响机理与THMC耦合模型研究，2022.01-2025.12，参与

[5]     北京师范大学教学建设与改革项目，24-19-36，PBL教学模式在污染场地修复技术与风险管理实验教学中的应用，2024.07-2025.10，主持

[6]     横向项目，西藏玉曲河扎拉水电站施工扰动区生态修复规划及生态技术研究，2023.07-2025.06，参与

[7]     国家自然科学基金重大项目，41991312，典型毒害有机污染物的环境地球化学过程、跨界面传输与多介质分配，2020.01-2024.12，参与

[8]     横向项目，生物炭添加污泥堆肥对不同质地土壤中重金属风险削减机理，2022.01-2024.12，主持

[9]     国家重点研发计划课题，2020YFC1806603，“中轻度放射性污染土壤生物修复材料与技术研究”之子课题1“放射性污染土壤修复的缓释螯合剂制备及应用性能研究”，2020.10-2024.09，主持

[10]  国家重点研发计划课题，2019YFC1804602，“本土化场地土壤环境暴露参数方法学与指标体系”，2020.01-2023.12，参与

[11]  横向项目，金沙江上游拉哇水电站坝基堰塞湖沉积层资源化利用研究技术服务，2021.09-2023.08，参与

[12]  国家自然科学基金青年科学基金项目，41907095，老化过程对生物炭钝化复合污染土壤中镉铅稳定性的影响机制研究，2020.01-2022.12，主持

[13]  北京师范大学青年教师基金项目，2020NTST24，老化负载铁生物炭对土壤中镉和铅的钝化及酶活性的影响，2020.10-2022.09，主持

[14]  地表过程分析与模拟教育部重点实验室青年基金项目（重点项目），老化过程对生物炭固持土壤中重金属效果的影响研究，2019.09-2020.09，主持

[15]  山西省重点研发计划（社会发展领域），201803D31049，生物固体土地利用关键技术及风险管控一体化研究，2018.06-2020.06，参与

[16]  山东省自然科学基金面上项目，ZR2017MEE064，污泥堆肥腐熟化时间保证条件下的抗生素抗性基因削减机制，2017.08-2020.06，参与

[17]  山东省科学院青年基金项目，2018QN0035，污泥堆肥对典型农田和公园土壤重金属迁移性和生物可给性影响机理研究，2017.12-2019.12，主持

[18]  山东省科学院创新工程国合专项，多孔材料的研发及其在水处理中的应用，2016.01-2019.12，参与

[19]  山东省科学院青年基金项目，2017QN0012，CMC-MnO₂纳米颗粒降解污泥施用土壤中PPCPs的机制研究，2017.01-2018.12，参与

[20]  山东省自然科学基金博士基金项目，ZR2016DB18，堆肥污泥园林绿化应用对土壤中重金属生物可给性的影响及健康风险评估，2016.11-2018.11，主持

发表论文：

https://orcid.org/0000-0002-9712-6333

*通讯作者

[1]     Kai Yang, Yu Xue, Runchuan Fan, Litang Hu, Naifu Jin, Aizhong Ding, Hefa Cheng, 2025. A novel slow-release citric acid for enhancing the phytoremediation of uranium-contaminated soil by Indian mustard (Brassica juncea L.) and ryegrass (Lolium perenne L.). Journal of Cleaner Production 519, 145973.

[2]     Yiwei Gong, Kaiming Yang, Weici Quan, Jiawen Zhang, Yuxi Wu, Rui Wang, Yadi Ai, Kai Yang*, Hongguang Cheng*, 2025. Health risk assessment of metal(loid)s in the topsoils of an operating industrial park based on bioaccessibility and quantitative source apportionment. Journal of Environmental Sciences. Available online 11 July 2025.

[3]     范润川, 郝才伟, 李文博, 朱英, 郑蕾, 程红光, 杨凯*, 2025. 物理老化对不同秸秆生物炭理化性质和热稳定性的影响. 农业环境科学学报. 已录用.

[4]     Jiaxuan Song, Kai Yang, Aizhong Ding, Naifu Jin, Yujiao Sun, Dayi Zhang, 2025. Antagonistic effects of polystyrene microplastics and tetracycline on Chlorella pyrenoidosa as revealed by infrared spectroscopy coupled with multivariate analysis. Journal of Hazardous Materials 491, 137896.

[5]     Kai Yang, Yu Xue, Runchuan Fan, Naifu Jin, Junfeng Dou, Hefa Cheng, 2024. Radiological risk and impact on soil microbial diversity of radionuclides in agricultural topsoils downstream of a decommissioned hydrometallurgical uranium plant. Journal of Environmental Management 370, 122781.

[6]     Dao Wang, Litang Hu*, Kai Yang*, Shiqi Huang, Lei Tian, 2024. Enhancement of U(VI) sorption in natural soils at prospective high-level radioactive waste geological disposal sites with Fe(OH)₃‐humic acid composite colloids. Journal of Radioanalytical and Nuclear Chemistry 333, 1203-1212.

[7]     薛雨, 范润川, 丁爱中, 杨凯*, 2024. 螯合诱导植物修复铀污染土壤的研究进展. 环境科学研究 37(08), 1798-1809.

[8]     Naifu Jin, Qiuyuan Yang, Kai Yang, Yizhi Song, Aizhong Ding, Yujiao Sun, Guanghe Li, Dayi Zhang, 2024. Characterization and source-apportionment of synergistic ecotoxicities of multiple pollutants based on a biosensor-biospectroscopy coupling (BBC) test battery approach. Critical Reviews in Environmental Science and Technology 54, 883-907.

[9]     Naifu Jin, Jiaxuan Song, Yingying Wang, Kai Yang, Dayi Zhang, 2024. Biospectroscopic fingerprinting phytotoxicity towards environmental monitoring for food security and contaminated site remediation. Journal of Hazardous Materials 465, 133515.

[10]  王英戈, 杨凯, 张卫珂, 介颖泽, 杨艳青, 2024. 污泥源腐殖酸对铅铬复合污染土壤的淋洗效果研究. 现代化工 44(S2), 202-207.

[11]  权蔚慈, 杨凯, 阚思蒙, 孙叶龙, 田应辉, 万东, 郑蕾, 程红光, 2024. 金沙江上游堰塞湖相静水沉积物特性及其资源化利用研究. 环境工程 42(08), 1-7.

[12]  邹一飞, 许明家, 丁爱中, 金乃夫, 杨凯, 杨庆, 朱宜, 郑蕾, 金喜来, 2024. 地下水生态系统健康评价研究进展. 环境科学研究 37(11), 2341-2351.

[13]  王镱潼, 冯绍元, 李艳, 杨凯, 2024. 面向水利类专业的课程思政融入方式设计与实践——以“工程地质与水文地质”为例. 教育教学论坛 (30), 95-99.

[14]  Kai Yang, Xilong Wang, Hefa Cheng, Shu Tao, 2023. Effects of physical aging processes on the bioavailability of heavy metals in contaminated site soil amended with chicken manure and wheat straw biochars. Environmental Pollution 324, 121414.

[15]  Yiwei Gong, Shuwen Yang, Shaoyang Chen, Shoudao Zhao, Yadi Ai, Di Huang, Kai Yang*, Hongguang Cheng*, 2023. Soil microbial responses to simultaneous contamination of antimony and arsenic in the surrounding area of an abandoned antimony smelter in Southwest China. Environment International 174, 107897.

[16]  Shoudao Zhao, Yiwei Gong, Shuwen Yang, Shaoyang Chen, Di Huang, Kai Yang*, Hongguang Cheng*, 2023. Health risk assessment of heavy metals and disinfection by-products in drinking water in megacities in China: A study based on age groups and Monte Carlo simulations. Ecotoxicology and Environmental Safety 262, 115330.

[17]  Naifu Jin#, Kai Yang#, Junyi Li, Yizhi Song, Aizhong Ding, Yujiao Sun, Guanghe Li, Dayi Zhang, 2023. Toxicity characterization of environment-related pollutants using a biospectroscopy−bioreporter-coupling approach: Potential for real-world toxicity determination and source apportionment of multiple pollutants. Analytical Chemistry 95, 4291-4300.

[18]  Wenjuan Jia, Lirong Cheng, Qiuyang Tan, Yueqiao Liu, Junfeng Dou, Kai Yang, Qing Yang, Senjie Wang, Jing Li, Geng Niu, Lei Zheng, Aizhong Ding, 2023. Response of the soil microbial community to petroleum hydrocarbon stress shows a threshold effect: research on aged realistic contaminated fields. Frontiers in Microbiology 14, 1188229.

[19]  Kai Yang, Xilong Wang, Hefa Cheng, Shu Tao, 2022. Enhanced immobilization of cadmium and lead adsorbed on crop straw biochars by simulated aging processes. Environmental Pollution 302, 119064.

[20]  Yitong Wang, Kai Yang*, Zejun Tang, 2022. Effect of fly ash- and polyacrylamide-consolidated soil layer on A. splendens growth in a desert in North China. Catena 210, 105935.

[21]  Yue You, Junfeng Dou, Yu Xue, Naifu Jin, Kai Yang*, 2022. Chelating agents in assisting phytoremediation of uranium-contaminated soils: A review. Sustainability 14, 6379.

[22]  Yumin Yuan, Kai Yang*, Lirong Cheng, Yijuan Bai, Yingying Wang, Ying Hou, Aizhong Ding*, 2022. Effect of normalization methods on accuracy of estimating low- and high-molecular weight PAHs distribution in the soils of a coking plant. International Journal of Environmental Research and Public Health 19, 15470.

[23]  Zhuling Chu, Chunye Lin, Kai Yang, Hongguang Cheng, Xiang Gu, Beibei Wang, Linlin Wu, Jin Ma, 2022. Lability, bioaccessibility, and ecological and health risks of anthropogenic toxic heavy metals in the arid calcareous soil around a nonferrous metal smelting area. Chemosphere 307, 136200.

[24]  Naifu Jin, Yueqiao Liu, Xinzi Wang, Kai Yang, Dayi Zhang, Aizhong Ding, 2022. In-vitro toxicity assessment of Eucalyptus robusta Smith extracts via whole-cell bioreporter. Ecotoxicology and Environmental Safety 240, 113704.

[25]  Lei Zheng, Yuzi Xing, Aizhong Ding, Shiquan Sun, Hongguang Cheng, Zhaoyong Bian, Kai Yang, Shengrui Wang, Guibing Zhu, 2022. Brownification of freshwater promotes nitrogen-cycling microorganism growth following terrestrial material increase and ultraviolet radiation reduction. Science of the Total Environment 853, 158556.

[26]  Kai Yang, Xilong Wang, Hefa Cheng, Shu Tao, 2021. Effect of aging on stabilization of Cd and Ni by biochars and enzyme activities in a historically contaminated alkaline agricultural soil simulated with wet–dry and freeze–thaw cycling. Environmental Pollution 268, 115846.

[27]  Kai Yang*, Zejun Tang, Jianzhang Feng, 2021. Coal fly ash and polyacrylamide influence transport and redistribution of soil nitrogen in a sandy sloping land. Agriculture 11, 47.

[28]  杨凯*, 王营营, 丁爱中, 2021. 生物炭对铅矿区污染土壤修复效果的稳定性研究. 农业环境科学学报 40(12), 2715-2722.

[29]  Kai Yang*, Zejun Tang, Jianzhang Feng, 2020. Effect of co-use of fly ash and granular polyacrylamide on infiltration, runoff, and sediment yield from sandy soil under simulated rainfall. Agronomy 10, 344.

[30]  Ying Zhu, Kai Yang*, Rongchang Jia, Yanqiu Shao, Aisheng Zhang, Xiaowei Yang, 2020. Effects of different additives and ambient conditions on acceleration of sludge stabilization: Laboratory-scale simulated landfill study. Journal of Environmental Engineering 146, 04020012.

[31]  Yanrong Zhang, Weike Zhang, Kai Yang, Yanqing Yang, Jia Jia, Ying Liang, Lijun Guo, 2020. Carbon nano-onions (CNOs)/TiO₂ composite preparation and its photocatalytic performance under visible light irradiation. Journal of Environmental Engineering 146, 04020009.

[32]  张艳荣, 张卫珂, 杨凯, 杨艳青, 邓钏, 郭丽君, 2020. BiOBr分子印迹材料的制备及其降解诺氟沙星性能. 环境科学学报 40(03), 940-949.

[33]  Yitong Wang, Kai Yang*, Zejun Tang*, 2019. In situ effect of combined utilization of fly ash and polyacrylamide on sand stabilization in North China. Catena 172, 170-178.

[34]  Weike Zhang*, Ying Liang, Jiawei Wang, Yanrong Zhang, Zeyu Gao, Yanqing Yang, Kai Yang*, 2019. Ultrasound-assisted adsorption of Congo red from aqueous solution using Mg-Al-CO₃ layered double hydroxide. Applied Clay Science 174, 100-109.

[35]  Weike Zhang, Yanrong Zhang, Kai Yang, Yanqing Yang, Jia Jia, Lijun Guo, 2019. Photocatalytic performance of SiO₂/CNOs/TiO₂ to accelerate the degradation of Rhodamine B under visible light. Nanomaterials 9, 1671.

[36]  Kai Yang*, Stephen R. Cattle, 2018. Contemporary sources and levels of heavy metal contamination in urban soil of Broken Hill, Australia after ad hoc land remediation. International Journal of Mining, Reclamation and Environment 32, 18-34.

[37]  Kai Yang, Tao Zhang, Yanqiu Shao, Chao Tian, Stephen R. Cattle, Ying Zhu, Jinjuan Song, 2018. Fractionation, bioaccessibility, and risk assessment of heavy metals in the soil of an urban recreational area amended with composted sewage sludge. International Journal of Environmental Research and Public Health 15, 613.

[38]  Ying Zhu, Kai Yang*, Ranran Shan, Zhe Han, Yanqiu Shao, Chao Tian, 2018. The influence of humification degree of humic acid on its sorption of norfloxacin during sewage sludge composting. Water, Air, & Soil Pollution 229, 160.

[39]  Yanqiu Shao, Kai Yang, Rongchang Jia, Chao Tian, Ying Zhu, 2018. Degradation of triclosan and carbamazepine in two agricultural and garden soils with different textures amended with composted sewage sludge. International Journal of Environmental Research and Public Health 15, 2557.

[40]  Kai Yang, Ying Zhu, Ranran Shan, Yanqiu Shao, Chao Tian, 2017. Heavy metals in sludge during anaerobic sanitary landfill: Speciation transformation and phytotoxicity. Journal of Environmental Management 189, 58-66.

[41]  Kai Yang*, Stephen R. Cattle, 2017. Effectiveness of cracker dust as a capping material for Pb-rich soil in the mining town of Broken Hill, Australia. Catena 148, 81-91.

[42]  Jiping Niu, Kai Yang, Zejun Tang, Yitong Wang, 2017. Relationships between soil crust development and soil properties in the desert region of North China. Sustainability 9, 725-739.

[43]  Yanqiu Shao, Changwen Du, Jianmin Zhou, Fei Ma, Ying Zhu, Kai Yang, Chao Tian, 2017. Quantitative analysis of different nitrogen isotope labelled nitrate in paddy soil using mid-infrared attenuated total reflectance spectroscopy. Analytical Methods 9, 5388-5394.

[44]  Yitong Wang, Kai Yang, Zejun Tang, Chao Chen, 2016. The effectiveness of the consolidated desert surface by mixing of fly ash and polyacrylamide in wind erosion control. Water, Air, & Soil Pollution 227, 429.

[45]  Kai Yang*, Stephen R. Cattle, 2015. Bioaccessibility of lead in urban soil of Broken Hill, Australia: A study based on in vitro digestion and the IEUBK model. Science of the Total Environment 538, 922-933.

[46]  赵智, 唐泽军, 杨凯, 刘景奇, 许理, 2013. PAM与粉煤灰改良沙土中重金属的迁移和富集规律. 农业机械学报 44(07), 83-89.

[47]  赵智, 唐泽军, 宋满刚, 杨凯, 2013. 粉煤灰和PAM改良沙土物理性质田间试验. 水土保持学报 27(03), 178-183.

[48]  Kai Yang, Zejun Tang, 2012. Effectiveness of fly ash and polyacrylamide as a sand-fixing agent for wind erosion control. Water, Air, & Soil Pollution 223, 4065-4074.

[49]  杨凯, 唐泽军, 赵智, 封建章, 郭平, 丁涛, 2012. 粉煤灰和聚丙烯酰胺固沙效果的风洞试验. 农业工程学报 28(04), 54-59.

[50] 杨凯, 唐泽军, 2012. 北京市农田深层土壤氮素分布规律研究. 中国土壤与肥料 (03), 22-25.

专利：

[1]     杨凯, 赵守道, 权蔚慈, 郑蕾, 程红光. 一种用于土地复垦的替代表土材料. 专利号: ZL202211116076.1. 授权公告日: 2024.11.12.

[2]     杨凯, 赵守道, 程红光, 林春野, 陈少阳, 龚逸伟, 杨舒雯, 黄迪. 一种基于POI数据的区域土壤污染健康风险评估方法. 专利号: ZL202210542440.4. 授权公告日: 2024.6.18.

[3]     杨凯, 尤越, 豆俊峰. 用于铀污染土壤治理的生物降解缓释螯合剂及其制备方法. 专利号: ZL202210953467.2. 授权公告日: 2024.3.5.

[4]     尤越, 杨凯, 豆俊峰. 一种批量滴液成球仪. 专利号: ZL202122348836.9. 授权公告日: 2022.4.12.

[5]     朱英, 邵艳秋, 杨凯, 田超, 单然然, 史会剑. 一种流域水环境质量生态补偿方法. 专利号: ZL201611034126.6. 授权公告日: 2018.8.28.

[6]     韩哲, 朱英, 杨凯, 邵艳秋, 唐厚全, 靳建超, 郭茹, 刘梅, 苏成华, 李海洋, 单然然. 一种用于吸附废水中重金属材料的制备方法及其应用. 专利号: ZL201410704542.7. 授权公告日: 2017.6.27.

标准：

郑国峰, 张丽娟, 乔新燕, 杨凯, 王玮, 商照荣. 铀矿区放射性污染土壤生物修复技术规范 (T/BSRS 125—2024). 发布日期：2024.11.14.

软著：

北京师范大学. 土壤与地下水多要素协同作用下区域环境污染健康风险评估系统V1.0. 登记号：2024SR1008920. 登记日期: 2024.7.16.

[1]     2018年度山东省科技进步奖二等奖“污泥低成本减量化、稳定化关键技术与装备”，山东省人民政府

[2]     2017年度优秀科技工作者建议三等奖“关于山东省土壤污染防治及修复的对策建议”，山东省科学技术协会

[3]     2018年度博士后国（境）外交流项目引进项目，中国博士后科学基金会

[4]     第7届污染场地修复国际会议（CleanUp 2017）早期职业研究者奖学金，澳大利亚环境污染评估与修复合作研究中心（CRC CARE）

[5]     2012年中国农业大学校级优秀硕士学位论文（全校每年共10人），中国农业大学

[6]     2012届北京市级优秀研究生毕业生，北京市教育委员会