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大气污染与控制教研所

段凤魁

邮箱:duanfk@tsinghua.edu.cn

电话:电话:010-62782030

地点:地点:bat365在线平台官方网站中意环境节能楼

教育背景

2001.9-2005.7 bat365在线平台官方网站环境科学与工程系 环境工程博士

1998.9-2001.7 北京科技大学化学系分析化学硕士

1991.9-1995.7 山东省曲阜师范大学化学系 化学教育学士


工作履历

2019.12–至今 365英国上市官网,副研究员

2011.01–2019.11 365英国上市官网,高级工程师

2009.12–2011.01 bat365在线平台官方网站环境科学与工程系,高级工程师

2005.08–2009.12 bat365在线平台官方网站环境科学与工程系,工程师

2015.07–至今 室内空气质量评价与控制北京市重点实验室副主任

2019.10 哈佛大学,访问学者

2015.11 日本大阪大学理学院,访问学者

2011.07–2011.11 加拿大环境部,访问学者

2005.12–2006.03 比利时根特大学分析化学系,访问学者

2002.12 日本庆应大学理学院,访问学者

教学:

《校园环境监测》《环境监测实验》(本科生)(国家精品课程)

《大气污染控制工程实验》(本科生)(国家精品课程)


奖励与荣誉

2007 全国百篇优秀博士学位论文

2009 国家自然科学二等奖 (3完成人)

2007 教育部自然科学一等奖(第3完成人)

2007 环境保护科学技术二等奖(第6完成人)

2012 bat365在线平台官方网站教学成果一等奖(第3完成人)

2014 bat365在线平台官方网站教学成果二等奖(第2完成人)

2013 bat365在线平台官方网站优秀班主任

2015 bat365在线平台官方网站优秀招生新人

2014 bat365在线平台官方网站第13届实验技术成果二等奖(第1完成人)

2016 bat365在线平台官方网站第14届实验技术成果三等奖(第2完成人)

2016 365英国上市官网教学工作先进个人

2005 bat365在线平台官方网站优秀博士学位论文一等奖



研究领域

1. 大气颗粒物外场观测技术

2. 大气重污染成因与机制

3. 环境有机分析化学

4. 大气颗粒物生态毒理特征


研究概况

  1. 863科技支撑项目:长三角区域大气重污事件发生特征与形成途径研究(2014-2017

  2. 大气重污染成因与治理攻关项目:秋冬季重污染的化学过程机理研究(2017.4-2019.9

  3. 国家重点研发计划课题:大气污染环境暴露及个体暴露特征分析(2017-2020

  4. 国家重点研发计划课题:重点行业排放监测与评估(2016-2019

  5. 国家973计划课题,全球大气气溶胶源汇机制研究及模式研制(2010-2015

  6. 全国优秀博士学位论文作者专项资金:重点城市PM2.5复合污染形成机制研究(2008-2013

  7. 国家自然科学基金中英重大国际科技合作项目:北京大气污染对心肺疾病影响的暴露科学、毒理基因组学和环境流行病学综合研究(2016-2019

  8. 国家自然科学基金项目:大气细颗粒物污染暴露在呼吸系统的分布以及毒害作用的分子病理学研究(2015-2018

  9. 环保公益性项目:室内空气细颗粒物污染和健康风险评价及控制对策研究(2014-2016

  10. 国家自然科学基金重大项目:大气二次颗粒物的化学组分特征及形成机制(2012-2016

  11. 国家自然科学基金青年基金项目:升温模式和样品性质对大气颗粒物中有机碳和元素碳测定偏差的影响(2012-2014

  12. 国家自然科学基金项目:北京含碳细颗粒物来源的稳定碳同位素识别(2007-2009

  13. 国家自然科学基金项目:典型城市雾过程对大气颗粒物物理化学特征的影响(2005-2007

  14. 国家自然科学基金项目:城市大气PM2.5水溶性有机物分析方法及污染特征研究(2004

  15. 高等学校博士学科点专项科研基金:应用发光细菌研究复合大气颗粒物污染的生态毒性(2009-2011

  16. 国家“863”计划课题:大气细粒子采样技术与设备(2003-2005

  17. 国家“863”计划课题:大气细粒子连续监测技术与设备(2001-2002


学术成果

  1. Yang Shuo, Fengkui Duan*, Yongliang Ma, Hui Li, Tao Ma, Lidan Zhu, Tao Huang, Takashi Kimoto, and Kebin He. Mixed and intensive haze pollution during the transition period between autumn and winter in Beijing, China. Science of The Total Environment, 2020, 711, DOI: 10.1016/j.scitotenv.2019.134745.

  2. Tao Ma, Hiroshi Furutani, Fengkui Duan*, Takashi Kimoto, Jingkun Jiang, Qiang Zhang, Xiaobin Xu, Ying Wang, Jian Gao, Guannan Geng, Meng Li, Shaojie Song8, Yongliang Ma, Fei Che, Jie Wang, Lidan Zhu, Tao Huang, Michisato Toyoda, Kebin He*. Contribution of hydroxymethanesulfonate (HMS) to severe winter haze in the North China Plain. Atmospheric Chemistry and Physics Discussions, 2020, DOI: 10.5194/acp-2020-113.

  3. Chu, B., Ma, Q., Duan, F., Ma, J., Jiang, J., He, K.* and He, H.* Atmospheric "Haze Chemistry": Concept and Research Prospects. Progress in Chemistry, 2020, 32(1): 1-4.

  4. Ye Siqi, Tao Ma, Fengkui Duan*, Hui Li, Kebin He, Jing Xia, Shuo Yang, Lidan Zhu, Yongliang Ma, Tao Huang, and Takashi Kimoto. Characteristics and formation mechanisms of winter haze in Changzhou, a highly polluted industrial city in the Yangtze River Delta, China. Environmental Pollution, 2019, 253: 377-83.

  5. Ma Tao, Fengkui Duan*, Kebin He, Yu Qin, Dan Tong, Guannan Geng, Xuyan Liu, Hui Li, Shuo Yang, Siqi Ye, Beiyao Xu, Qiang Zhang, and Yongliang Ma. Air pollution characteristics and their relationship with emissions and meteorology in the Yangtze River Delta region during 2014-2016. Journal of Environmental Sciences, 2019, 83: 8-20.

  6. Yang Liu, Fengkui Duan*, Hua Tian, Kebin He, Yongliang Ma, Tao Ma, Hui Li, Shuo Yang, and Lidan Zhu. Biotoxicity of water-soluble species in PM2.5 using Chlorella. Environmental Pollution, 2019, 250: 914-21.

  7. Sun Zhenli, Fengkui Duan*, Kebin He*, Jingjing Du, Liu Yang, Hui Li, Tao Ma, and Shuo Yang. Physicochemical analysis of individual atmospheric fine particles based on effective surface-enhanced Raman spectroscopy. Journal of Environmental Sciences, 2019, 75: 388-95.

  8. Sun Zhenli, Fengkui Duan*, Kebin He, Jingjing Du, and Lidan Zhu. Sulfate-nitrate-ammonium as double salts in PM2.5: Direct observations and implications for haze events. Science of The Total Environment, 2019, 647: 204-09.

  9. Sun Zhenli, Fengkui Duan*, Yongliang Ma, Kebin He*, Lidan Zhu, and Tao Ma. Heavy Particulate Matter Pollution during the 2014-2015 Winter in Tianjin, China. Aerosol and Air Quality Research, 2019, 19: 1338-45.

  10. Yang Shuo, Fengkui Duan*, Yongliang Ma, Kebin He, Lidan Zhu, Tao Ma, Siqi Ye, Hui Li, Tao Huang, and Takashi Kimoto. Haze formation indicator based on observation of critical carbonaceous species in the atmosphere. Environmental Pollution, 2019, 244: 84-92.

  11. Li Hui, Fengkui Duan*, Yongliang Ma, Kebin He, Lidan Zhu, Tao Ma, Siqi Ye, Shuo Yang, Tao Huang, and Takashi Kimoto. Case study of spring haze in Beijing: Characteristics, formation processes, secondary transition, and regional transportation. Environmental Pollution, 2018, 242: 544-54.

  12. Shuo Yang, Yongliang Ma, Fengkui Duan*, Kebin He*, Litao Wang, Zhe Wei, Lidan Zhu, Tao Ma, Hui Li, Siqi Ye. Characteristics and formation of typical winter haze in Handan, one of the most polluted cities in China. Science of The Total Environment, 2018, 613-614: 1367-1375.

  13. Li Hui, Yongliang Ma, Fengkui Duan*, Kebin He*, Lidan Zhu, Tao Huang, Takashi Kimoto, Xiaoxuan Ma, Tao Ma, Lili Xu, Beiyao Xu, Shuo Yang, Siqi Ye, Zhenli Sun, Jiutao An, and Zhaolu Zhang. Typical winter haze pollution in Zibo, an industrial city in China: Characteristics, secondary formation, and regional contribution. Environmental Pollution, 2017, 229: 339-49.

  14. Xu, Lili, Fengkui Duan*, Kebin He*, Yongliang Ma, Lidan Zhu, Yixuan Zheng, Tao Huang, Takashi Kimoto, Tao Ma, Hui Li, Siqi Ye, Shuo Yang, Zhenli Sun, and Beiyao Xu. Characteristics of the secondary water-soluble ions in a typical autumn haze in Beijing. Environmental Pollution, 2017, 227: 296-305.

  15. Fengkui Duan*, Kebin He*, Yongliang Ma, Taisuke Ihozaki, Hideya Kawasaki, Ryuichi Arakawa, S. Kitayama, K. Tujimoto, Tao Huang, Takashi Kimoto, Hiroshi Furutani, Michisato Toyoda . High molecular weight organic compounds (HMW-Ocs) in severe winter haze: Direct observation and insights on the formation mechanism. Environmental Pollution, 2016, 218: 289-296.

  16. Hu Jun, Fengkui Duan*, Kebin He*, Yongliang Ma, Shuping Dong, and Xiande Liu. Characteristics and mixing state of S-rich particles in haze episodes in Beijing. Frontiers of Environmental Science & Engineering, 2016, 10.

  17. Zheng Guangjie, Fengkui Duan*, Yongliang Ma, Qiang Zhang, Tao Huang, Takashi Kimoto, Yafang Cheng, Hang Su, and Kebin He*. Episode-Based Evolution Pattern Analysis of Haze Pollution: Method Development and Results from Beijing, China. Environmental Science & Technology, 2016, 50: 4632-4641.

  18. Li Haiyan, Fengkui Duan*, Kebin He*, Yongliang Ma, Takashi Kimoto, and Tao Huang. Size-Dependent Characterization of Atmospheric Particles during Winter in Beijing. Atmosphere, 2016, 7.

  19. Li Haiyan, Qiang Zhang*, Fengkui Duan, Bo Zheng, and Kebin He. The “Parade Blue”: effects of short-term emission control on aerosol chemistry. Faraday Discussions, 2016, 189: 317-335.

  20. Liang ChunSheng, FengKui Duan*, KeBin He*, and YongLiang Ma. Review on recent progress in observations, source identifications and countermeasures of PM2.5. Environment International, 2016, 86: 150-170.

  21. Zhang Qian, Fengkui Duan*, Kebin He, Yongliang Ma, Haiyan Li, Takashi Kimoto, and Aihua Zheng. Organic nitrogen in PM2.5 in Beijing. Frontiers of Environmental Science & Engineering, 2015, 9: 1004-1014.

  22. Liu Fei, Fengkui Duan, Hairong Li, Yongliang Ma, Kebin He*, and Qian Zhang. Solid Phase Microextraction/Gas Chromatography-Tandem Mass Spectrometry for Determination of Polycyclic Aromatic Hydrocarbons in Fine Aerosol in Beijing. Chinese Journal of Analytical Chemistry, 2015, 43: 540-46.

  23. Liu, F., Duan, F. K.*, He, K. B.*, Ma, Y. L., Rahn, K. A. and Zhang, Q. An enhanced procedure for measuring organic acids and methyl esters in PM2.5[J]. Atmospheric Measurement Techniques, 2015, 8(11): 4851-4862.

  24. Zhang, Q., Duan, F.*, He, K.*, Ma, Y., Li, H., Kimoto, T. and Zheng, A. Organic nitrogen in PM2.5 in Beijing[J]. Frontiers of Environmental Science and Engineering, 2015, 9(6): 1004-1014.

  25. Zheng, B., Zhang, Q.*, Zhang, Y., He, K. B.*, Wang, K., Zheng, G. J., Duan, F. K., Ma, Y. L. and Kimoto, T. Heterogeneous chemistry: A mechanism missing in current models to explain secondary inorganic aerosol formation during the January 2013 haze episode in North China[J]. Atmospheric Chemistry and Physics, 2015, 15(4): 2031-2049.

  26. Zheng, G. J., Duan, F. K., Su, H., Ma, Y. L., Cheng, Y., Zheng, B., Zhang, Q., Huang, T., Kimoto, T., Chang, D., Pöschl, U., Cheng, Y. F.* and He, K. B.* Exploring the severe winter haze in Beijing: The impact of synoptic weather, regional transport and heterogeneous reactions[J]. Atmospheric Chemistry and Physics, 2015, 15(6): 2969-2983.

  27. Zhou, Z.*, Liu, Y., Duan, F., Qin, M., Wu, F., Sheng, W., Yang, L., Liu, J. and He, K.* Transcriptomic analyses of the biological effects of airborne PM¬2.5 exposure on human bronchial epithelial cells[J]. PLoS ONE, 2015, 10(9).

  28. Brook, R. D., Sun, Z., Brook, J. R., Zhao, X., Ruan, Y., Yan, J., Mukherjee, B., Rao, X., Duan, F., Sun, L., Liang, R., Lian, H., Zhang, S., Fang, Q., Gu, D., Sun, Q., Fan, Z. and Rajagopalan, S.* Extreme Air Pollution Conditions Adversely Affect Blood Pressure and Insulin Resistance: The Air Pollution and Cardiometabolic Disease Study[J]. Hypertension, 2016, 67(1): 77-85.

  29. Hu, H., Wu, J., Li, Q., Asweto, C., Feng, L., Yang, X., Duan, F., Duan, J.* and Sun, Z.* Fine particulate matter induces vascular endothelial activation: Via IL-6 dependent JAK1/STAT3 signaling pathway[J]. Toxicology Research, 2016, 5(3): 946-953.

  30. Zhang, Y.*, Zhang, X., Wang, K., Zhang, Q., Duan, F. and He, K. Application of WRF/Chem over East Asia: Part II. Model improvement and sensitivity simulations[J]. Atmospheric Environment, 2016, 124: 301-320.

  31. Zhang, Y., Zhang, X., Wang, L., Zhang, Q., Duan, F. and He, K. Application of WRF/Chem over East Asia: Part I. Model evaluation and intercomparison with MM5/CMAQ[J]. Atmospheric Environment, 2016, 124: 285-300.

  32. He, J., Zhang, Y.*, Wang, K., Chen, Y., Leung, L. R., Fan, J., Li, M., Zheng, B., Zhang, Q., Duan, F. and He, K. Multi-year application of WRF-CAM5 over East Asia-Part I: Comprehensive evaluation and formation regimes of O3 and PM2.5[J]. Atmospheric Environment, 2017, 165: 122-142.

  33. Cheng, Y, Engling, G., He, K. B.*, Duan, F. K., Du, Z. Y., Ma, Y. L., Liang, L. L., Lu, Z. F., Liu, J. M., Zheng, M. and Weber, R. J. The characteristics of Beijing aerosol during two distinct episodes: Impacts of biomass burning and fireworks[J]. Environmental Pollution, 2014, 185: 149-157.

  34. Cheng, Y, He, K. B.*, Duan, F. K., Du, Z. Y., Zheng, M. and Ma, Y. L. Ambient organic carbon to elemental carbon ratios: Influence of the thermal-optical temperature protocol and implications[J]. Science of the Total Environment, 2014, 468-469: 1103-1111.

  35. Liu, K., Duan, F.*, He, K.*, Ma, Y. and Cheng, Y. Investigation on sampling artifacts of particle associated PAHs using ozone denuder systems[J]. Frontiers of Environmental Science and Engineering, 2014, 8(2): 284-292.

  36. Zhao X, Sun Z, Ruan Y, Yan J., Mukherjee B., Yang F., Duan F., Sun L, Liang R, Lian H, Zhang S, Fang Q, Gu D, Brook JR, Sun Q, Brook RD, Rajagopalan S* and Fan Z.* Personal black carbon exposure influences ambulatory blood pressure: Air pollution and cardiometabolic disease (AIRCMD-China) study. Hypertension, 2014, 63(4): 871-877.

  37. Zheng GJ, Cheng Y, He KB*, Duan FK* and Ma YL. A newly identified calculation discrepancy of the Sunset semi-continuous carbon analyzer[J]. Atmospheric Measurement Techniques, 2014, 7(7): 1969-1977.

  38. Zheng, G., He, K.*, Duan, F.*, Cheng, Y. and Ma, Y. Measurement of humic-like substances in aerosols: A review[J]. Environmental Pollution, 2013, 181: 301-314.

  39. Cheng, Y, Duan, F. K., He, K. B.* et al. Intercomparison of thermal-optical method with different temperature protocols: Implications from source samples and solvent extraction[J]. Atmospheric Environment, 2012, 61: 453-462.

  40. Cheng, Y, Duan FK, He KB* et al. Sampling artifacts of organic and inorganic aerosol: Implications for the speciation measurement of particulate matter[J]. Atmospheric Environment, 2012,

  41. He, K.*, Zhao, Q., Ma, Y., Duan FK et al. Spatial and seasonal variability of PM2.5 acidity at two Chinese megacities: Insights into the formation of secondary inorganic aerosols[J]. Atmospheric Chemistry and Physics, 2012, 12(3): 1377-1395.

  42. Cheng, Y., Duan FK*, He KB*, Zheng M. et al. Intercomparison of thermal-optical methods for the determination of organic and elemental carbon: Influences of aerosol composition and implications[J]. Environmental Science and Technology, 2011, 45(23): 10117-10123.

  43. Cheng, Y., He, K. B.*, Duan, F. K., Zheng, M., Du, Z. Y., Ma, Y. L. and Tan, J. H. Ambient organic carbon to elemental carbon ratios: Influences of the measurement methods and implications[J]. Atmospheric Environment, 2011, 45(12): 2060-2066.

  44. Cheng, Y., He, K. B.*, Zheng, M., Duan, F. K et al. Mass absorption efficiency of elemental carbon and water-soluble organic carbon in Beijing, China[J]. Atmospheric Chemistry and Physics, 2011, 11(22): 11497-11510.

  45. Yang, F., Huang, L., Duan, F., Zhang, W., He, K.*, Ma, Y et al. Carbonaceous species in PM2.5 at a pair of rural/urban sites in Beijing, 2005-2008[J]. Atmospheric Chemistry and Physics, 2011, 11(15): 7893-7903.

  46. Zhao, Q., He, K.*, Rahn, K. A., Ma, Y., Jia, Y., Yang, F., Duan, F., Lei, Y., Chen, G., Cheng, Y., Liu, H. and Wang, S. Dust storms come to Central and Southwestern China, too: Implications from a major dust event in Chongqing[J]. Atmospheric Chemistry and Physics, 2010, 10(6): 2615-2630.

  47. Zhao, Q., He, K.*, Rahn, K. A., Ma, Y., Yang, F. and Duan, F. Using Si depletion in aerosol to identify the sources of crustal dust in two Chinese megacities. Atmospheric Environment, 2010, 44(21-22): 2615-2624.

  48. Cheng, Y., He, K. B.*, Duan, F. K., Zheng, M., Ma, Y. L., Tan, J. H. and Du, Z. Y. Improved measurement of carbonaceous aerosol: Evaluation of the sampling artifacts and inter-comparison of the thermal-optical analysis methods. Atmospheric Chemistry and Physics, 2010, 10(17): 8533-8548.

  49. Duan, Fengkui*, He, Kebin* and Liu, Xiande. Characteristics and source identification of fine particulate n-alkanes in Beijing, China. Journal of Environmental Sciences, 2010, 22(7): 998-1005.

  50. Duan, F.*, Liu, X., He, K. and Dong, S. Measurements and characteristics of nitrogen-containing compounds in atmospheric particulate matter in Beijing, China. Bulletin of Environmental Contamination and Toxicology, 2009, 82(3): 332-337.

  51. Cheng Y, He K B*, Duan F K, et al. Positive sampling artifact of carbonaceous aerosols and its influence on the thermal-optical split of OC/EC. Atmospheric Chemistry and Physics, 2009, 9(18): 7243-7256.

  52. Cheng Y., He KB.*, Duan FK., Zheng M, Ma YL and Tan JH. Measurement of semivolatile carbonaceous aerosols and its implications: A review[J]. Environment International, 2009, 35(3): 674-681.

  53. Duan F K, Liu X D, He K B, et al. Characteristics and source identification of particulate matter in wintertime in Beijing. Water Air and Soil Pollution, 180 (1-4): 171-183, 2007

  54. Duan F K, He K B*, et al. Concentration and Chemical Characteristic of PM2.5 in Beijing, China: 2001-2002. Science of The Total Environment, 355 (1-3): 264-275, 2006

  55. Zhang DH, Ma YL, He KB, Duan FK, Jia YT, Okuda T and Tanaka S. Characteristics of polycyclic aromatic hydrocarbons (PAHs) on airborne particulates in Beijing. Environmental Science, 2006, 27(7): 1269-1275.

  56. Zheng X*, Liu X, Zhao F, Duan F, Yu T and Cachier H. Seasonal characteristics of biomass burning contribution to Beijing aerosol[J]. Science in China, Series B: Chemistry, 2005, 48(5): 481-488.

  57. Duan F K, He K B*, Ma Y L, et al. Characteristics of Carbonaceous Aerosols in Beijing, China. Chemosphere, 60: 355-364, 2005

  58. Duan F, Liu, X.*, Yu, T. and Cachier, H. Identification and estimate of biomass burning contribution to the urban aerosol organic carbon concentrations in Beijing. Atmospheric Environment, 2004, 38(9): 1275-1282.

  59. He KB*, Duan FK, Ma YL, Yang FM, Zhang Q, Yu XC, Cadle S, Chan T, Yan Y and Mulawa P. Concentration Level of Fine Airborne Lead in Beijing, People's Republic of China. Bulletin of Environmental Contamination and Toxicology, 2004, 72(2): 233-239.

  60. Yu XC, He KB*, Ma YL, Yang FM, Duan FK, Zheng AH and Zhao CY. Application of ion chromatography to the determination of water-soluble inorganic and organic ions in atmospheric aerosols[J]. Journal of Environmental Sciences, 2004, 16(5): 813-815.

  61. Duan FK, Liu, XD*, He KB, Lu YQ. and Wang L. Atmospheric aerosol concentration level and chemical characteristics of water-soluble ionic species in wintertime in Beijing, China. Journal of Environmental Monitoring, 2003, 5(4): 569-573.

  62. Yu X, He K, Ma Y, Duan F, Yang F, Cadle S, Chan T and Mulawa P. Water-soluble anionic species of PM2.5 in Beijing, China. ACS, Division of Environmental Chemistry - Preprints of Extended Abstracts, 2003: 880-885.

  63. Liu XD*, Chi XG, Duan FK, Dong SP and Yu T. Determination of organic carbon and elemental carbon in Chinese urban aerosols by using CHN elemental analyzer. Journal of Aerosol Science, 2000, 31(SUPPL.1): S240-S241.

  64. 贺克斌,杨复沫,段凤魁,马永亮.大气颗粒物与区域复合污染,科学出版社,2011