吴志军 - 北京大学 - 环境科学与工程学院

个人简介

吴志军，北京大学环境科学与工程学院研究员、长聘副教授、博士生导师。主要研究我国大气复合污染条件下新粒子生成与增长机制、大气气溶胶相变过程及其在大气污染形成和气候变化中的作用。在揭示重污染、强氧化性大气环境中新粒子生成与增长机制、气溶胶含水量、相态和成冰活性方面取得创新成果，提高了对区域大气重污染物理化学成因的认识；进一步拓展了国际大气科学领域对城市气溶胶相态、含水量、冰核、新粒子生成方面的研究。荣获2019年国家自然科学二等奖 (排名2/7) 、2018年教育部自然科学奖一等奖 (排名2/7) 和首届中国环境科学学会青年科学家优秀奖等奖项。积极投入京津冀地区重污染过程跟踪监测、成因分析和科学会商，气溶胶含水量方面的工作被纳入工程院承担的国家《环境空气质量标准》评估项目，入选第二批国家环境保护专业技术青年拔尖人才教育经历 2001-2007 北京大学，环境学院，博士 1997-2001 吉林大学，环境与资源学院，学士工作经历 2019-至今北京大学，环境科学与工程学院，长聘副教授，博士生导师 2013-至今北京大学，环境科学与工程学院，研究员，博士生导师 2007-2013 德国莱布尼茨对流层研究所，博士后研究员

研究领域

大气复合污染条件下新粒子生成与增长机制大气气溶胶相变及影响污染物气-粒转化和气候变化的微观机制不同大气环境冰核的来源与性质

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Tang M, Guo L, Bai Y, Huang R-J, Wu Z, Wang Z, Zhang G, Ding X, Hu M, Wang X. Impacts of methanesulfonate on the cloud condensation nucleation activity of sea salt aerosol. Atmospheric EnvironmentAtmospheric Environment. 2019;201:13-17. Chen J, Pei XY, Wang H, Chen JC, Zhu YS, Tang MJ, Wu ZJ. Development, Characterization, and Validation of a Cold Stage-Based Ice Nucleation Array (PKU-INA). Atmosphere. 2018;9:13. Nieminen T, Kerminen VM, Petaja T, Aalto PP, Arshinov M, Asmi E, Baltensperger U, Beddows DCS, Beukes JP, Collins D, et al. Global analysis of continental boundary layer new particle formation based on long-term measurements. Atmospheric Chemistry and Physics. 2018;18:14737-14756. Tang MJ, Chen J, Wu Z. Ice nucleating particles in the troposphere: Progresses, challenges and opportunities. Atmospheric EnvironmentAtmospheric Environment. 2018;192:206-208. Qiao K, Wu ZJ, Pei XY, Liu QY, Shang DJ, Zheng J, Du ZF, Zhu WF, Wu YS, Lou SR, et al. Size-resolved effective density of submicron particles during summertime in the rural atmosphere of Beijing, China. Journal of Environmental Sciences. 2018;73:69-77. Wu ZJ, Wang Y, Tan TY, Zhu YS, Li MR, Shang DJ, Wang HC, Lu KD, Guo S, Zeng LM, et al. Aerosol Liquid Water Driven by Anthropogenic Inorganic Salts: Implying Its Key Role in Haze Formation over the North China Plain. Environmental Science & Technology Letters. 2018;5:160-166. Chen J, Wu ZJ, Augustin-Bauditz S, Grawe S, Hartmann M, Pei XY, Liu ZR, Ji DS, Wex HK. Ice-nucleating particle concentrations unaffected by urban air pollution in Beijing, China. Atmospheric Chemistry and Physics. 2018;18:3523-3539. Wang Y, Hu M, Guo S, Wang Y, Zheng J, Yang Y, Zhu W, Tang R, Li X, Liu Y, et al. The secondary formation of organosulfates under interactions between biogenic emissions and anthropogenic pollutants in summer in Beijing. ATMOSPHERIC CHEMISTRY AND PHYSICS. 2018;18:10693-10713. Wang H, Lu K, Chen X, Zhu Q, Wu Z, Wu Y, Sun K. Fast particulate nitrate formation via N2O5 uptake aloft in winter in Beijing. ATMOSPHERIC CHEMISTRY AND PHYSICS. 2018;18:10483-10495. Wang H, Lu K, Guo S, Wu Z, Shang D, Tan Z, Wang Y, Breton ML, Lou S, Tang M, et al. Efficient N2O5 uptake and NO3 oxidation in the outflow of urban Beijing. ATMOSPHERIC CHEMISTRY AND PHYSICS. 2018;18:9705-9721. Wu ZJ, Chen J, Wang Y, Zhu YS, Liu YC, Yao B, Zhang YH, Hu M. Interactions between water vapor and atmospheric aerosols have key roles in air quality and climate change. National Science Review. 2018;5:452-454. Sun J, Liu L, Xu L, Wang Y, Wu Z, Hu M, Shi Z, Li Y, Zhang X, Chen J, et al. Key Role of Nitrate in Phase Transitions of Urban Particles: Implications of Important Reactive Surfaces for Secondary Aerosol Formation. JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES. 2018;123:1234-1243. Wang Y, Wu Z, Ma N, Wu Y, Zeng L, Zhao C, Wiedensohler A. Statistical analysis and parameterization of the hygroscopic growth of the sub-micrometer urban background aerosol in Beijing. ATMOSPHERIC ENVIRONMENT. 2018;175:184-191. Huang S, Wu Z, Poulain L, van Pinxteren M, Merkel M, Assmann D, Herrmann H, Wiedensohler A. Source apportionment of the organic aerosol over the Atlantic Ocean from 53 degrees N to 53 degrees S: significant contributions from marine emissions and long-range transport. ATMOSPHERIC CHEMISTRY AND PHYSICS. 2018;18:18043-18062. Liu M, Huang X, Song Y, Xu T, Wang S, Wu Z, Hu M, Zhang L, Zhang Q, Pan Y, et al. Rapid SO2 emission reductions significantly increase tropospheric ammonia concentrations over the North China Plain. ATMOSPHERIC CHEMISTRY AND PHYSICS. 2018;18:17933-17943. Tan T, Hu M, Li M, Guo Q, Wu Y, Fang X, Gu F, Wang Y, Wu Z. New insight into PM2.5 pollution patterns in Beijing based on one-year measurement of chemical compositions. SCIENCE OF THE TOTAL ENVIRONMENT. 2018;621:734-743. Hu W, Niu H, Murata K, Wu Z, Hu M, Kojima T, Zhang D. Bacteria in atmospheric waters: Detection, characteristics and implications. ATMOSPHERIC ENVIRONMENT. 2018;179:201-221. Sun J, Liu L, Xu L, Wang Y, Wu Z, Hu M, Shi Z, Li Y, Zhang X, Chen J, et al. Key Role of Nitrate in Phase Transitions of Urban Particles: Implications of Important Reactive Surfaces for Secondary Aerosol Formation. Journal of Geophysical Research: AtmospheresJournal of Geophysical Research: Atmospheres. 2018;123:1234-1243. Liu M, Huang X, Song Y, Xu T, Wang S, Wu Z, Hu M, Zhang L, Zhang Q, Pan Y, et al. Rapid SO2 emission reductions significantly increase tropospheric ammonia concentrations over the North China Plain. Atmospheric Chemistry and Physics. 2018;18:17933-17943. Huang S, Wu Z, Poulain L, van Pinxteren M, Merkel M, Assmann D, Herrmann H, Wiedensohler A. Source apportionment of the organic aerosol over the Atlantic Ocean from 53° N to 53° S: significant contributions from marine emissions and long-range transport. Atmospheric Chemistry and Physics. 2018;18:18043-18062. 吴志军、陈洁.; 2018. 浸润核模式下的冰核浓度及成冰活性检测装置离线检测装置. China patent CN ZL201721531688.1 . Wu ZJ. Gain Insight into Chemical Components Driving New Particle Growth on a Basis of Particle Hygroscopicity and Volatility Measurements: a Short Review. Current Pollution Reports. 2017;3:175-181. Peng JF, Hu M, Du ZF, Wang YH, Zheng J, Zhang WB, Yang YD, Qin YH, Zheng R, Xiao Y, et al. Gasoline aromatics: a critical determinant of urban secondary organic aerosol formation. Atmospheric Chemistry and Physics. 2017;17:10743-10752. Guo QF, Hu M, Guo S, Wu ZJ, Peng JF, Wu YS. The variability in the relationship between black carbon and carbon monoxide over the eastern coast of China: BC aging during transport. Atmospheric Chemistry and Physics. 2017;17:10395-10403. Wang H, Lu K, Chen X, Zhu Q, Chen Q, Guo S, Jiang M, Li X, Shang D, Tan Z, et al. High N2O5 Concentrations Observed in Urban Beijing: Implications of a Large Nitrate Formation Pathway. ENVIRONMENTAL SCIENCE & TECHNOLOGY LETTERS. 2017;4:416-420. Liu Y, Wu Z, Wang Y, Xiao Y, Gu F, Zheng J, Tan T, Shang D, Wu Y, Zeng L, et al. Submicrometer Particles Are in the Liquid State during Heavy Haze Episodes in the Urban Atmosphere of Beijing, China. ENVIRONMENTAL SCIENCE & TECHNOLOGY LETTERS. 2017;4:427-432. Wang HC, Lu KD, Chen XR, Zhu QD, Chen Q, Guo S, Jiang MQ, Li X, Shang DJ, Tan ZF, et al. High N2O5 Concentrations Observed in Urban Beijing: Implications of a Large Nitrate Formation Pathway. Environmental Science & Technology Letters. 2017;4:416-420. Liu YC, Wu ZJ, Wang Y, Xiao Y, Gu FT, Zheng J, Tan TY, Shang DJ, Wu YS, Zeng LM, et al. Submicrometer Particles Are in the Liquid State during Heavy Haze Episodes in the Urban Atmosphere of Beijing, China. Environmental Science & Technology Letters. 2017;4:427-432. Wu ZJ, Ma N, Gross J, Kecorius S, Lu KD, Shang DJ, Wang Y, Wu YS, Zeng LM, Hu M, et al. Thermodynamic properties of nanoparticles during new particle formation events in the atmosphere of North China Plain. Atmospheric Research. 2017;188:55-63. Wang Y, Hu M, Lin P, Guo Q, Wu Z, Li M, Zeng L, Song Y, Zeng L, Wu Y, et al. Molecular Characterization of Nitrogen-Containing Organic Compounds in Humic-like Substances Emitted from Straw Residue Burning. Environmental Science & Technology. 2017;51:5951-5961. Wang ZB, Birmili W, Hamed A, Wehner B, Spindler G, Pei XY, Wu ZJ, Cheng YF, Su H, Wiedensohler A. Contributions of volatile and nonvolatile compounds (at 300 degrees C) to condensational growth of atmospheric nanoparticles: An assessment based on 8.5 years of observations at the Central Europe background site Melpitz. Journal of Geophysical Research-Atmospheres. 2017;122:485-497. Wang ZB, Wu ZJ, Yue DL, Shang DJ, Guo S, Sun JY, Ding AJ, Wang L, Jiang JK, Guo H, et al. New particle formation in China: Current knowledge and further directions. Science of the Total Environment. 2017;577:258-266. Huang XF, Wang C, Peng JF, He LY, Cao LM, Zhu Q, Cui J, Wu ZJ, Hu M. Characterization of particle number size distribution and new particle formation in Southern China. Journal of Environmental Sciences. 2017;51:342-351. Huang S, Poulain L, van Pinxteren D, van Pinxteren M, Wu ZJ, Herrmann H, Wiedensohler A. Latitudinal and Seasonal Distribution of Particulate MSA over the Atlantic using a Validated Quantification Method with HR-ToF-AMS. Environmental Science & Technology. 2017;51:418-426. Wu ZJ, Zheng J, Wang Y, Shang DJ, Du ZF, Zhang YH, Hu M. Chemical and physical properties of biomass burning aerosols and their CCN activity: A case study in Beijing, China. Science of the Total Environment. 2017;579:1260-1268. Li M, Hu M, Du B, Guo Q, Tan T, Zheng J, HUANG X, He L, Wu Z, Guo S. Temporal and spatial distribution of PM2.5 chemical composition in a coastal city of Southeast China. SCIENCE OF THE TOTAL ENVIRONMENT. 2017;605:337-346. Li MR, Hu M, Du BH, Guo QF, Tan TY, Zheng J, Huang XF, He LY, Wu ZJ, Guo S. Temporal and spatial distribution of PM2.5 chemical composition in a coastal city of Southeast China. Science of the Total Environment. 2017;605:337-346. Liu Y, Wu Z, Hu M. Advances in the phase state of secondary organic aerosol. China Environmental Science. 2017;37:1637-1645. 吴志军、刘玥晨.; 2017. 一种大气黑碳颗粒物相态的测量装置. China patent CN ZL2017 2 0013849.1. 刘玥晨、吴志军*、胡敏. 二次有机气溶胶相态的研究现状与展望. 中国环境科学. 2017;37(05):1637~1645.PKU 王渝、吴志军*、胡敏. 我国不同大气环境下亚微米颗粒物吸湿特性. 中国环境科学. 2017;37(05):1601~1609.PKU 吴志军、陈洁.; 2017. 浸润核模式下的冰核浓度及成冰活性检测装置. China patent CN ZL 2017 2 1169464.0. Liu Y, Wu Z, Wang Y, Xiao Y, Gu F, Zheng J, Tan T, Shang D, Wu Y, Zeng L, et al. Submicrometer Particles Are in the Liquid State during Heavy Haze Episodes in the Urban Atmosphere of Beijing, China. Environmental Science & Technology Letters . 2017;4:427-432