基本信息
姓名:门聪
系所:环境科学与工程系
职称:讲师
办公地点:科技楼913B
邮箱:mencong@ustb.edu.cn
教育及工作经历
2022.10-至今,北京科技大学,讲师
2020.7-2022.7,清华大学,博士后,助理研究员
2015.9-2020.6,北京师范大学,博士
2011.9-2015.6,北京科技大学,学士
2020.7-2022.7,清华大学,博士后,助理研究员
2015.9-2020.6,北京师范大学,博士
2011.9-2015.6,北京科技大学,学士
研究领域
1.微塑料、抗生素和PFAS等新兴污染物
2.环境污染及健康风险评估
3.水环境污染模拟与来源解析
2.环境污染及健康风险评估
3.水环境污染模拟与来源解析
研究生培养
每年招收硕士研究生,男女不限.
代表性论文及著作
1. Men, C., et al. A nationwide probabilistic risk assessment and a new insight into source-specific risk apportionment of antibiotics in eight typical river basins in China: Human health risk and ecological risk. Journal of Hazardous Materials, 2025, 484: 136674.
2. Men, C., et al. Particle size-dependent monthly variation of pollution load, ecological Risk, and sources of heavy metals in road dust in Beijing, China. Toxics, 2025, 31(1): 40.
3. Men, C., et al. Single and combined effect of polyethylene microplastics (virgin and naturally aged) and cadmium on pakchoi (Brassica rapa subsp. chinensis) under different growth stages. Science of The Total Environment, 2024, 951: 175602.
4. Men, C., et al. The difference between tire wear particles and polyethylene microplastics in stormwater filtration systems: Perspectives from aging process, conventional pollutants removal and microbial communities. Environmental Pollution, 2024, 361: 124736.
5. 门聪, 等.北京市通州区河流中抗生素的赋存特征、生态风险及主要来源. 环境科学, 2025, https://doi.org/10.13227/j.hjkx.202408216.
6. 李凯贺, 门聪, 等. 土壤中微塑料与抗生素吸附、迁移及复合毒性研究进展. 环境科学, 2025, https://doi.org/10.13227/j.hjkx.202405030.
7. 张小平, 李梓琛, 王瑜, 武志瑶, 乌达巴拉, 门聪*. 矿区复垦地人工生态系统碳汇能力与生物多样性功能协同效益解析. 煤炭科学技术, 2024, 52(07): 257-266.
8. Jing, X., Cheng, S., Men, C.*, et al. Study on the Mechanism and Control Strategy of Advanced Treatment of Yeast Wastewater by Ozone Catalytic Oxidation. Water, 2023, 15(2): 274.
9. 门聪, 李頔, 左剑恶, 等.北京市通州区河流中微塑料组成的空间分布及潜在来源解析. 环境科学, 2022, 43(07): 3656-3663.
10. Men, C., et al. A four-way model (FEST) for source apportionment:development, verification, and application. Journal of Hazardous Materials, 2021, 426: 128009.
11. Men, C., et al. Source-specific ecological risk analysis and critical source identification of heavy metals in road dust in Beijing, China. Journal of Hazardous Materials, 2020, 388: 121763. (ESI高被引论文)
12. Men, C., et al. Pollution characteristics, risk assessment, and source apportionment of heavy metals in road dust in Beijing, China. Science of The Total Environment, 2018, 612: 138-147. (ESI高被引论文)
13. Men, C., et al. Spatial-temporal characteristics, source-specific variation and uncertainty analysis of health risks associated with heavy metals in road dust in Beijing, China. Environmental Pollution, 2021, 278: 116866.
14. Men, C., et al. Uncertainty analysis in source apportionment of heavy metals in road dust based on positive matrix factorization model and geographic information system. Science of The Total Environment, 2019, 652: 27-39.
15. Men, C., et al. The impact of seasonal varied human activity on characteristics and sources of heavy metals in metropolitan road dusts. Science of The Total Environment, 2018, 637-638: 844-854.
16. Men, C., et al. Temporal variations of levels and sources of health risk associated with heavy metals in road dust in Beijing from May 2016 to April 2018. Chemosphere, 2021, 270: 129434.
17. Men C.*, et al. Prediction of tempo-spatial patterns and exceedance probabilities of atmospheric corrosion of Q235 carbon steel over the whole China. Environmental Science and Pollution Research, 2021, 29: 25234-25247.
18. Men C., et al. Impact of particle sizes on health risks and source-specific health risks for heavy metals in road dust. Environmental Science and Pollution Research, 2022, DOI: 10.1007/s11356-022-21060-w.
19. Li J.Y., Men C.*, Qi J.F., et al. Impact factor analysis, prediction, and mapping of soil corrosion of carbon steel across China based on MIV-BP artificial neural network and GIS. Journal of Soils and Sediments, 2020, 20(8): 3204-3216.
20. Liu R.M.*, Men C., et al. Uncertainty in positive matrix factorization solutions for PAHs in surface sediments of the Yangtze River Estuary in different seasons. Chemosphere, 2018, 191: 922-936.
21. Liu R.M.*, Men C., et al. Spatial distribution and pollution evaluation of heavy metals in Yangtze estuary sediment. Marine Pollution Bulletin, 2016, 110: 564-571.
22. Liu R.M.*, Men C., et al. Application of spatial Markov chains to the analysis of the temporal-spatial evolution of soil erosion. Water Science & Technology, 2016, 74:1051-1059.
2. Men, C., et al. Particle size-dependent monthly variation of pollution load, ecological Risk, and sources of heavy metals in road dust in Beijing, China. Toxics, 2025, 31(1): 40.
3. Men, C., et al. Single and combined effect of polyethylene microplastics (virgin and naturally aged) and cadmium on pakchoi (Brassica rapa subsp. chinensis) under different growth stages. Science of The Total Environment, 2024, 951: 175602.
4. Men, C., et al. The difference between tire wear particles and polyethylene microplastics in stormwater filtration systems: Perspectives from aging process, conventional pollutants removal and microbial communities. Environmental Pollution, 2024, 361: 124736.
5. 门聪, 等.北京市通州区河流中抗生素的赋存特征、生态风险及主要来源. 环境科学, 2025, https://doi.org/10.13227/j.hjkx.202408216.
6. 李凯贺, 门聪, 等. 土壤中微塑料与抗生素吸附、迁移及复合毒性研究进展. 环境科学, 2025, https://doi.org/10.13227/j.hjkx.202405030.
7. 张小平, 李梓琛, 王瑜, 武志瑶, 乌达巴拉, 门聪*. 矿区复垦地人工生态系统碳汇能力与生物多样性功能协同效益解析. 煤炭科学技术, 2024, 52(07): 257-266.
8. Jing, X., Cheng, S., Men, C.*, et al. Study on the Mechanism and Control Strategy of Advanced Treatment of Yeast Wastewater by Ozone Catalytic Oxidation. Water, 2023, 15(2): 274.
9. 门聪, 李頔, 左剑恶, 等.北京市通州区河流中微塑料组成的空间分布及潜在来源解析. 环境科学, 2022, 43(07): 3656-3663.
10. Men, C., et al. A four-way model (FEST) for source apportionment:development, verification, and application. Journal of Hazardous Materials, 2021, 426: 128009.
11. Men, C., et al. Source-specific ecological risk analysis and critical source identification of heavy metals in road dust in Beijing, China. Journal of Hazardous Materials, 2020, 388: 121763. (ESI高被引论文)
12. Men, C., et al. Pollution characteristics, risk assessment, and source apportionment of heavy metals in road dust in Beijing, China. Science of The Total Environment, 2018, 612: 138-147. (ESI高被引论文)
13. Men, C., et al. Spatial-temporal characteristics, source-specific variation and uncertainty analysis of health risks associated with heavy metals in road dust in Beijing, China. Environmental Pollution, 2021, 278: 116866.
14. Men, C., et al. Uncertainty analysis in source apportionment of heavy metals in road dust based on positive matrix factorization model and geographic information system. Science of The Total Environment, 2019, 652: 27-39.
15. Men, C., et al. The impact of seasonal varied human activity on characteristics and sources of heavy metals in metropolitan road dusts. Science of The Total Environment, 2018, 637-638: 844-854.
16. Men, C., et al. Temporal variations of levels and sources of health risk associated with heavy metals in road dust in Beijing from May 2016 to April 2018. Chemosphere, 2021, 270: 129434.
17. Men C.*, et al. Prediction of tempo-spatial patterns and exceedance probabilities of atmospheric corrosion of Q235 carbon steel over the whole China. Environmental Science and Pollution Research, 2021, 29: 25234-25247.
18. Men C., et al. Impact of particle sizes on health risks and source-specific health risks for heavy metals in road dust. Environmental Science and Pollution Research, 2022, DOI: 10.1007/s11356-022-21060-w.
19. Li J.Y., Men C.*, Qi J.F., et al. Impact factor analysis, prediction, and mapping of soil corrosion of carbon steel across China based on MIV-BP artificial neural network and GIS. Journal of Soils and Sediments, 2020, 20(8): 3204-3216.
20. Liu R.M.*, Men C., et al. Uncertainty in positive matrix factorization solutions for PAHs in surface sediments of the Yangtze River Estuary in different seasons. Chemosphere, 2018, 191: 922-936.
21. Liu R.M.*, Men C., et al. Spatial distribution and pollution evaluation of heavy metals in Yangtze estuary sediment. Marine Pollution Bulletin, 2016, 110: 564-571.
22. Liu R.M.*, Men C., et al. Application of spatial Markov chains to the analysis of the temporal-spatial evolution of soil erosion. Water Science & Technology, 2016, 74:1051-1059.
代表性科研项目
1. 国家自然科学基金项目“我国城市河流微纳塑料三维源解析与“汇-源”匹配定量模型构建及应用”,2025-2027,负责人
2. 基本科研业务费资助项目“海绵城市设施中微生物对微塑料和重金属复合污染的响应机制”,2022-2024,负责人
3. 科技与文明中外人文交流研究开放课题““可持续卫生设施创新:推进技术进步和产品市场化”联合国教科文组织教席培育项目研究”,2024-2025,负责人
4. 国家重点研发计划课题““农村水冲厕所源头节水关键技术产品研发”,2024-2027,核心成员
5. 高等院校稳定支持计划重点项目“深圳河流水质稳定提升与生态健康安全评估及保障技术研究”,2021-2023,核心成员.
6. 水体污染控制与治理专项(水专项)“北京城市副中心高品质水生态与水环境技术综合集成研究”,2017-2020,核心成员.
7. 国家自然科学基金重点项目“城市景观-水环境响应机制及调控方法研究”,2015-2020,核心成员.
8. 国家重点研发计划“京津冀城市群生态安全保障技术研究”,2016-2020,核心成员.
9. 国家自然科学基金“基于不确定性的流域最大日负荷总量分配及控制措施研究”,2016-2019,核心成员.
2. 基本科研业务费资助项目“海绵城市设施中微生物对微塑料和重金属复合污染的响应机制”,2022-2024,负责人
3. 科技与文明中外人文交流研究开放课题““可持续卫生设施创新:推进技术进步和产品市场化”联合国教科文组织教席培育项目研究”,2024-2025,负责人
4. 国家重点研发计划课题““农村水冲厕所源头节水关键技术产品研发”,2024-2027,核心成员
5. 高等院校稳定支持计划重点项目“深圳河流水质稳定提升与生态健康安全评估及保障技术研究”,2021-2023,核心成员.
6. 水体污染控制与治理专项(水专项)“北京城市副中心高品质水生态与水环境技术综合集成研究”,2017-2020,核心成员.
7. 国家自然科学基金重点项目“城市景观-水环境响应机制及调控方法研究”,2015-2020,核心成员.
8. 国家重点研发计划“京津冀城市群生态安全保障技术研究”,2016-2020,核心成员.
9. 国家自然科学基金“基于不确定性的流域最大日负荷总量分配及控制措施研究”,2016-2019,核心成员.