基本信息
武云飞  男  博导  中国科学院大气物理研究所
电子邮件: wuyf@mail.iap.ac.cn
通信地址: 北京市朝阳区华严里40号
邮政编码:

研究领域

大气气溶胶光学特性、气溶胶物理化学性质、气溶胶-云-辐射相互作用

招生信息

   
招生专业
070602-大气物理学与大气环境
083001-环境科学
招生方向
大气环境
大气化学
大气物理

教育背景

2007-09--2012-06   中国科学院大气物理研究所   博士研究生
2003-09--2007-06   南京大学大气科学系   大学本科

工作经历

   
工作简历
2022-02~现在, 中国科学院大气物理研究所, 研究员
2015-03~2022-01,中国科学院大气物理研究所, 副研究员
2014-04~2014-06,香港中文大学, 访问交流
2013-09~2013-09,日本海洋研究开发机构JAMSTEC, 访问交流
2012-07~2015-02,中国科学院大气物理研究所, 助理研究员
2011-05~2011-09,美国太平洋-西北国家实验室PNNL, 访问交流
社会兼职
2022-08-01-2026-07-31,中国颗粒学会气溶胶专业委员会, 副主任委员
2022-07-31-2026-07-31,中国颗粒学会, 青年理事
2022-01-01-2023-12-31,SCI期刊-《Particuology》, 青年编委
2020-01-01-2024-12-31,核心期刊-《中国粉体技术》, 编委

专利与奖励

   
奖励信息
(1) 中国颗粒学会自然科学二等奖, 二等奖, 其他, 2020
(2) 中国颗粒学会气溶胶技术创新奖, , 其他, 2019
专利成果
[1] 武云飞. 一种气流恒温装置. CN: CN113359901A, 2021-09-07.

[2] 任燕, 张宏昇, 鞠婷婷, 康凌, 蔡旭辉, 宋宇, 高迎鹏, 王鹏飞, 张仁健, 武云飞. 一种细颗粒物湍流通量测量方法. CN: CN109507072B, 2020-09-08.

[3] 张智胜, 陶俊, 高健, 陈东升, 程鹏, 武云飞. 宽范围多粒径颗粒物并联采集装置. CN: CN106226132B, 2018-11-30.

[4] 陶俊, 刘随心, 张智胜, 武云飞, 李扬, 陈新宇, 戴文婷. 复合采样装置. CN: CN205861407U, 2017-01-04.

[5] 陶俊, 张智胜, 武云飞, 曹军骥, 刘随心, 戴文婷, 张仁健. 气溶胶湿度补偿采样装置. CN: CN105784933B, 2017-07-07.

出版信息

   
发表论文
[1] 邓兆泽, 冉靓, 徐晓斌, 颜鹏, 田平, 林伟立, 武云飞, 张仁健, 潘蔚琳, 吕达仁. Size-resolved cloud condensation nuclei activity of aerosol particles sampled above the mixing layer. Aerosol Science and Technology[J]. 2024, 58(5): 485-497, [2] Yi Fang, Yunfei Wu, Fengmin Wu, Yan Yan, Qi Liu, Nian Liu, JiangJiang Xia. Short-term wind speed forecasting bias correction in the Hangzhou area of China based on a machine learning model. ATMOSPHERIC AND OCEANIC SCIENCE LETTERS[J]. 2023, http://dx.doi.org/10.1016/j.aosl.2023.100339.
[3] Li Luo, Siqi Wu, Renjian Zhang, Yunfei Wu, Jiawei Li, Shuhji Kao. What controls aerosol δ15N-NO3−? NOx emission sources vs. nitrogen isotope fractionation. SCIENCE OF THE TOTAL ENVIRONMENT. 2023, 871: http://dx.doi.org/10.1016/j.scitotenv.2023.162185.
[4] Liu, Ruiting, Han, Zhiwei, Li, Jiawei, Li, Jie, Liang, Lin, Wu, Yunfei. The impacts of urban anthropogenic heat and surface albedo change on boundary layer meteorology and air pollutants in the Beijing-Tianjin-Hebei region. URBAN CLIMATE[J]. 2023, 47: http://dx.doi.org/10.1016/j.uclim.2022.101358.
[5] Ziqi Chen, Yunfei Wu, Xin Wang, Rujin Huang, Renjian Zhang. Moisture-induced secondary inorganic aerosol formation dominated the light absorption enhancement of refractory black carbon at an urban site in northwest China. ATMOSPHERIC ENVIRONMENT[J]. 2023, 315: http://dx.doi.org/10.1016/j.atmosenv.2023.120113.
[6] Wang, Yichen, Wang, Qiyuan, Tian, Jie, Zhang, Yong, Wu, Yunfei, Ran, Weikang, Zhang, Renjian, Cao, Junji. Aerosol composition, sources, and secondary processing during autumn at a regional site in the Beijing-Tianjin-Hebei region. PARTICUOLOGY[J]. 2023, 75(4): 177-184, http://dx.doi.org/10.1016/j.partic.2022.07.0111674-2001.
[7] Chenglei Pei, Yunfei Wu, Jun Tao, Leiming Zhang, Tao Zhang, Runqi Zhang, Sheng Li. Seasonal variations of mass absorption efficiency of elemental carbon in PM2.5 in urban Guangzhou of South China. JOURNAL OF ENVIRONMENTAL SCIENCES[J]. 2023, 133: 83-92, http://dx.doi.org/10.1016/j.jes.2022.04.019.
[8] 夏祥鳌, 田玉芳, 武云飞, 杨静, 吉东生, 张金强, 张仁健, 王普才, 陈洪滨, 郄秀书, 吕达仁. 从边界层到中高层大气的气候环境综合探测与科学研究. 中国科学院院刊[J]. 2023, 38(7): 1077-1087, http://lib.cqvip.com/Qikan/Article/Detail?id=7110234577.
[9] Jing He, Yi Gao, Liren Xu, Yunfei Wu, Renjian Zhang, Meigen Zhang. The impact of aerosol-meteorology feedback on the effectiveness of emission reduction for PM2.5: A modeling case study in Northern China. ATMOSPHERIC RESEARCH. 2023, 294: http://dx.doi.org/10.1016/j.atmosres.2023.106963.
[10] Luo, Li, Liao, Tingting, Zhang, Xiaoling, Wu, Yunfei, Li, Jiawei, Zhang, Renjian, Zheng, Zhenzhen, Kao, ShuhJi. Quantifying the formation pathways of nitrate in size-segregated aerosols during winter haze pollution. GONDWANA RESEARCH[J]. 2023, 115: 71-80, http://dx.doi.org/10.1016/j.gr.2022.11.015.
[11] Huang, RuJin, Yuan, Wei, Yang, Lu, Yang, Huinan, Cao, Wenjuan, Guo, Jie, Zhang, Ningning, Zhu, Chongshu, Wu, Yunfei, Zhang, Renjian. Concentration, optical characteristics, and emission factors of brown carbon emitted by on-road vehicles. SCIENCE OF THE TOTAL ENVIRONMENT[J]. 2022, 810: http://dx.doi.org/10.1016/j.scitotenv.2021.151307.
[12] Wu, Yunfei, Zhang, Renjian, Tao, Jun, Deng, Zhaoze, Ran, Liang, Wang, Chaoying, Li, Jiawei, Han, Zhiwei. Contrasting mass absorption efficiency of carbonaceous aerosols between PM1 and PM2.5 in urban Beijing. ATMOSPHERIC ENVIRONMENT[J]. 2022, 291: http://dx.doi.org/10.1016/j.atmosenv.2022.119413.
[13] Zhong, Haobin, Huang, RuJin, Lin, Chunshui, Xu, Wei, Duan, Jing, Gu, Yifang, Huang, Wei, Ni, Haiyan, Zhu, Chongshu, You, Yan, Wu, Yunfei, Zhang, Renjian, Ovadnevaite, Jurgita, Ceburnis, Darius, ODowd, Colin D. Measurement report: On the contribution of long-distance transport to the secondary aerosol formation and aging. ATMOSPHERIC CHEMISTRY AND PHYSICS[J]. 2022, 22(14): 9513-9524, https://doaj.org/article/fed58ac3552d423e89c96147cd2a2460.
[14] Li, Jiawei, Han, Zhiwei, Chen, Liang, Wu, Yunfei, Luo, Li. Modeling study of aerosol-meteorology feedback during winter haze events over the north China plain. ATMOSPHERIC POLLUTION RESEARCH[J]. 2022, 13(2): http://dx.doi.org/10.1016/j.apr.2021.101311.
[15] Tao, Jun, Zhang, Zhisheng, Zhang, Leiming, Li, Jiawei, Wu, Yunfei, Pei, Chenglei, Nie, Fuli. Quantifying the relative contributions of aqueous phase and photochemical processes to water-soluble organic carbon formation in winter in a megacity of South China. CHEMOSPHERE[J]. 2022, 300: http://dx.doi.org/10.1016/j.chemosphere.2022.134598.
[16] Jiawei Li, Zhiwei Han, Vanisa Surapipith, Wenxuan Fan, Narisara Thongboonchoo, Jian Wu, Jie Li, Jun Tao, Yunfei Wu, Ronald Macatangay, Sherin Hassan Bran, Entao Yu, Anzhi Zhang, Lin Liang, Renjian Zhang. Direct and indirect effects and feedbacks of biomass burning aerosols over Mainland Southeast Asia and South China in springtime. SCIENCE OF THE TOTAL ENVIRONMENT[J]. 2022, 842: http://dx.doi.org/10.1016/j.scitotenv.2022.156949.
[17] Lin, Chunshui, Huang, RuJin, Duan, Jing, Zhong, Haobin, Xu, Wei, Wu, Yunfei, Zhang, Renjian. Large contribution from worship activities to the atmospheric soot particles in northwest China. ENVIRONMENTAL POLLUTION[J]. 2022, 299: http://dx.doi.org/10.1016/j.envpol.2022.118907.
[18] Ma, Qingxia, Wang, Weisi, Wu, Yunfei, Wang, Fang, Jin, Liyuan, Song, Xiaoyan, Han, Yan, Zhang, Renjian, Zhang, Daizhou. Haze caused by NOx oxidation under restricted residential and industrial activities in a mega city in the south of North China Plain. CHEMOSPHERE[J]. 2022, 305: http://dx.doi.org/10.1016/j.chemosphere.2022.135489.
[19] Ran, L., Deng, Z., Wu, Yunfei, Li, J., Bai, Z., Lu, Y., Zhuoga, D., Bian, J.. Measurement report: Vertical profiling of particle size distributions over Lhasa, Tibet – tethered balloon-based in situ measurements and source apportionment. ATMOSPHERIC CHEMISTRY AND PHYSICS[J]. 2022, 22: 6217-6229, https://doi.org/10.5194/acp-22-6217-2022.
[20] Wu, Yunfei, Xia, Yunjie, Zhou, Chang, Tian, Ping, Tao, Jun, Huang, RuJin, Liu, Dantong, Wang, Xin, Xia, Xiangao, Han, Zhiwei, Zhang, Renjian. Effect of source variation on the size and mixing state of black carbon aerosol in urban Beijing from 2013 to 2019: Implication on light absorption. ENVIRONMENTAL POLLUTION[J]. 2021, 270: http://dx.doi.org/10.1016/j.envpol.2020.116089.
[21] Liu, Quan, Liu, Dantong, Wu, Yangzhou, Bi, Kai, Gao, Wenkang, Tian, Ping, Zhao, Delong, Li, Siyuan, Yu, Chenjie, Tang, Guiqian, Wu, Yunfei, Hu, Kang, Ding, Shuo, Gao, Qian, Wang, Fei, Kong, Shaofei, He, Hui, Huang, Mengyu, Ding, Deping. Reduced volatility of aerosols from surface emissions to the top of the planetary boundary layer. ATMOSPHERIC CHEMISTRY AND PHYSICS[J]. 2021, 21(19): 14749-14760, http://dx.doi.org/10.5194/acp-21-14749-2021.
[22] Wu, Yunfei, Li, Jiwei, Xia, Yunjie, Deng, Zhaoze, Tao, Jun, Tian, Ping, Gao, Zongting, Xia, Xiangao, Zhang, Renjian. Size-resolved refractive index of scattering aerosols in urban Beijing: A seasonal comparison. AEROSOL SCIENCE AND TECHNOLOGY[J]. 2021, 55(9): 1070-1083, http://dx.doi.org/10.1080/02786826.2021.1924357.
[23] 杨彬, 吴健, 周卫青, 李朋, 白晓春, 吴华成, 王绿, 武云飞. 散煤燃烧的PM_(2.5)排放特征及排放清单. 中国粉体技术[J]. 2021, 27(4): 138-146, http://lib.cqvip.com/Qikan/Article/Detail?id=7104884576.
[24] Hu, Dawei, Liu, Dantong, Kong, Shaofei, Zhao, Delong, Wu, Yangzhou, Li, Siyuan, Ding, Shuo, Zheng, Shurui, Cheng, Yi, Hu, Kang, Deng, Zhaoze, Wu, Yunfei, Tian, Ping, Liu, Quan, Huang, Mengyu, Ding, Deping. Direct Quantification of Droplet Activation of Ambient Black Carbon Under Water Supersaturation. JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES[J]. 2021, 126(13): http://dx.doi.org/10.1029/2021JD034649.
[25] Wu, Yunfei, Li, Jiwei, Jiang, Chen, Xia, Yunjie, Tao, Jun, Tian, Ping, Zhou, Chang, Wang, Chaoying, Xia, Xiangao, Huang, Rujin, Zhang, Renjian. Spectral absorption properties of organic carbon aerosol during a polluted winter in Beijing, China. SCIENCE OF THE TOTAL ENVIRONMENT[J]. 2021, 755: http://dx.doi.org/10.1016/j.scitotenv.2020.142600.
[26] Li, Jiwei, Wu, Yunfei, Ren, Lihong, Wang, Wan, Tao, Jun, Gao, Yuanguang, Li, Gang, Yang, Xiaoyang, Han, Zhiwei, Zhang, Renjian. Variation in PM2.5 sources in central North China Plain during 2017-2019: Response to mitigation strategies. JOURNAL OF ENVIRONMENTAL MANAGEMENT[J]. 2021, 288: http://dx.doi.org/10.1016/j.jenvman.2021.112370.
[27] Tao, Jun, Zhang, Zhisheng, Zhang, Leiming, Wu, Yunfei, Fang, Ping, Wang, Boguang. Impact of aerosol liquid water content and its size distribution on hygroscopic growth factor in urban Guangzhou of South China. SCIENCE OF THE TOTAL ENVIRONMENT[J]. 2021, 789: http://dx.doi.org/10.1016/j.scitotenv.2021.148055.
[28] Hu, Kang, Liu, Dantong, Tian, Ping, Wu, Yangzhou, Deng, Zhaoze, Wu, Yunfei, Zhao, Delong, Li, Ruijie, Sheng, Jiujiang, Huang, Mengyu, Ding, Deping, Li, Weijun, Wang, Yuanyuan, Wu, Yu. Measurements of the Diversity of Shape and Mixing State for Ambient Black Carbon Particles. GEOPHYSICAL RESEARCH LETTERS[J]. 2021, 48(17): http://dx.doi.org/10.1029/2021GL094522.
[29] Li, Jiwei, Zhang, Zhisheng, Wu, Yunfei, Tao, Jun, Xia, Yunjie, Wang, Chaoying, Zhang, Renjian. Effects of chemical compositions in fine particles and their identified sources on hygroscopic growth factor during dry season in urban Guangzhou of South China. SCIENCE OF THE TOTAL ENVIRONMENT[J]. 2021, 801: http://dx.doi.org/10.1016/j.scitotenv.2021.149749.
[30] Joshi, Rutambhara, Liu, Dantong, Nemitz, Eiko, Langford, Ben, Mullinger, Neil, Squires, Freya, Lee, James, Wu, Yunfei, Pan, Xiaole, Fu, Pingqing, Kotthaus, Simone, Grimmond, Sue, Zhang, Qiang, Wu, Ruili, Wild, Oliver, Flynn, Michael, Coe, Hugh, Allan, James. Direct measurements of black carbon fluxes in central Beijing using the eddy covariance method. ATMOSPHERIC CHEMISTRY AND PHYSICS[J]. 2021, 21(1): 147-162, http://dx.doi.org/10.5194/acp-21-147-2021.
[31] Tao, Jun, Zhang, Zhisheng, Zhang, Leiming, Wu, Yunfei, Zhang, Renjian, Wang, Boguang. Impact of deliquescence of aerosol on mass absorption efficiency of elemental carbon in fine particles in urban Guangzhou in south China. ATMOSPHERICENVIRONMENT[J]. 2021, 256: http://dx.doi.org/10.1016/j.atmosenv.2021.118476.
[32] Tao, Jun, Zhang, Zhisheng, Zhang, Leiming, Huang, Daojian, Wu, Yunfei. Quantifying the relative importance of major tracers for fine particles released from biofuel combustion in households in the rural North China Plain. ENVIRONMENTAL POLLUTION[J]. 2021, 268: https://www.webofscience.com/wos/woscc/full-record/WOS:000600553000094.
[33] Ji, Denghui, Deng, Zhaoze, Sun, Xiaoyu, Ran, Liang, Xia, Xiangao, Fu, Disong, Song, Zijue, Wang, Pucai, Wu, Yunfei, Tian, Ping, Huang, Mengyu. Estimation of PM(2.5)Mass Concentration from Visibility. ADVANCES IN ATMOSPHERIC SCIENCES[J]. 2020, 37(7): 671-678, http://lib.cqvip.com/Qikan/Article/Detail?id=7101955047.
[34] Huang, RuJin, Yang, Lu, Shen, Jincan, Yuan, Wei, Gong, Yuquan, Guo, Jie, Cao, Wenjuan, Duan, Jing, Ni, Haiyan, Zhu, Chongshu, Dai, Wenting, Li, Yongjie, Chen, Yang, Chen, Qi, Wu, Yunfei, Zhang, Renjian, Dusek, Ulrike, ODowd, Colin, Hoffmann, Thorsten. Water-Insoluble Organics Dominate Brown Carbon in Wintertime Urban Aerosol of China: Chemical Characteristics and Optical Properties. ENVIRONMENTALSCIENCETECHNOLOGY[J]. 2020, 54(13): 7836-7847, https://www.webofscience.com/wos/woscc/full-record/WOS:000548584900015.
[35] Li, Jie, Han, Zhiwei, Li, Jiawei, Liu, Ruiting, Wu, Yunfei, Liang, Lin, Zhang, Renjian. The formation and evolution of secondary organic aerosol during haze events in Beijing in wintertime. SCIENCE OF THE TOTAL ENVIRONMENT[J]. 2020, 703: http://dx.doi.org/10.1016/j.scitotenv.2019.134937.
[36] Liu, Dantong, Hu, Kang, Zhao, Delong, Ding, Shuo, Wu, Yunfei, Zhou, Chang, Yu, Chenjie, Tian, Ping, Liu, Quan, Bi, Kai, Wu, Yangzhou, Hu, Bo, Ji, Dongsheng, Kong, Shaofei, Ouyang, Bin, He, Hui, Huang, Mengyu, Ding, Deping. Efficient Vertical Transport of Black Carbon in the Planetary Boundary Layer. GEOPHYSICAL RESEARCH LETTERS[J]. 2020, 47(15): http://dx.doi.org/10.1029/2020GL088858.
[37] Hu, Dawei, Liu, Dantong, Zhao, Delong, Yu, Chenjie, Liu, Quan, Tian, Ping, Bi, Kai, Ding, Shuo, Hu, Kang, Wang, Fei, Wu, Yangzhou, Wu, Yunfei, Kong, Shaofei, Zhou, Wei, He, Hui, Huang, Mengyu, Ding, Deping. Closure Investigation on Cloud Condensation Nuclei Ability of Processed Anthropogenic Aerosols. JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES[J]. 2020, 125(15): https://www.webofscience.com/wos/woscc/full-record/WOS:000562078700015.
[38] Lin, Chunshui, Huang, RuJin, Xu, Wei, Duan, Jing, Zheng, Yan, Chen, Qi, Hu, Weiwei, Li, Yongjie, Ni, Haiyan, Wu, Yunfei, Zhang, Renjian, Cao, Junji, ODowd, Colin. Comprehensive Source Apportionment of Submicron Aerosol in Shijiazhuang, China: Secondary Aerosol Formation and Holiday Effects. ACS EARTH AND SPACE CHEMISTRY[J]. 2020, 4(6): 947-957, https://www.webofscience.com/wos/woscc/full-record/WOS:000552671200015.
[39] Tao, Jun, Surapipith, Vanisa, Han, Zhiwei, Prapamontol, Tippawan, Kawichai, Sawaeng, Zhang, Leiming, Zhang, Zhisheng, Wu, Yunfei, Li, Jiawei, Li, Jie, Yang, Yihong, Zhang, Renjian. High mass absorption efficiency of carbonaceous aerosols during the biomass burning season in Chiang Mai of northern Thailand. ATMOSPHERIC ENVIRONMENT[J]. 2020, 240: http://dx.doi.org/10.1016/j.atmosenv.2020.117821.
[40] Ma, Qingxia, Wu, Yunfei, Fu, Shenglei, Zhang, Daizhou, Han, Zhiwei, Zhang, Renjian. Pollution severity-dependent aerosol light scattering enhanced by inorganic species formation in Beijing haze. SCIENCE OF THE TOTAL ENVIRONMENT[J]. 2020, 719: http://dx.doi.org/10.1016/j.scitotenv.2020.137545.
[41] Luo, Li, Kao, ShuhJi, Wu, YunFei, Zhang, XiaoLing, Lin, Hua, Zhang, RenJian, Xiao, HuaYun. Stable oxygen isotope constraints on nitrate formation in Beijing in springtime. ENVIRONMENTAL POLLUTION[J]. 2020, 263: http://apps.webofknowledge.com/CitedFullRecord.do?product=UA&colName=WOS&SID=5CCFccWmJJRAuMzNPjj&search_mode=CitedFullRecord&isickref=WOS:000539427600104.
[42] Liyuan Zhang, Junwei Su, Yu Huang, Qiyuan Wang, Renjian Zhang, Yunfei Wu, Yue Zhang, Yan Cheng, Yuanping He, Shuncheng Lee, Chuck Yu, Zhaolin Gu. Examining the physical and chemical contributions to size spectrum evolution during the development of hazes. SCIENTIFIC REPORTS[J]. 2020, 10(1): http://dx.doi.org/10.1038/s41598-020-62296-1.
[43] P Tian, D Liu, D Zhao, C Yu, Q Liu, M Huang, Z Deng, L Ran, Y Wu, S Ding, K Hu, G Zhao, C Zhao, D Ding. In situ vertical characteristics of optical properties and heating rates of aerosol over Beijing. ATMOSPHERIC CHEMISTRY AND PHYSICS[J]. 2020, 20(4): 2603-2622, https://doaj.org/article/a184d90bc6d84f39aad2b0d5266655f5.
[44] Tao, Jun, Zhang, Leiming, Wu, Yunfei, Zhang, Zhisheng. Evaluation of the IMPROVE formulas based on Mie model in the calculation of particle scattering coefficient in an urban atmosphere. ATMOSPHERIC ENVIRONMENT[J]. 2020, 222: http://dx.doi.org/10.1016/j.atmosenv.2019.117116.
[45] Wang, Qiyuan, Li, Li, Zhou, Jiamao, Ye, Jianhuai, Dai, Wenting, Liu, Huikun, Zhang, Yong, Zhang, Renjian, Tian, Jie, Chen, Yang, Wu, Yunfei, Ran, Weikang, Cao, Junji. Measurement report: Source and mixing state of black carbon aerosol in the North China Plain: implications for radiative effect. ATMOSPHERIC CHEMISTRY AND PHYSICS[J]. 2020, 20(23): 15427-15442, http://dx.doi.org/10.5194/acp-20-15427-2020.
[46] Xia, Yunjie, Wu, Yunfei, Huang, RuJin, Xia, Xiangao, Tang, Jie, Wang, Mian, Li, Jiwei, Wang, Chaoying, Zhou, Chang, Zhang, Renjian. Variation in black carbon concentration and aerosol optical properties in Beijing: Role of emission control and meteorological transport variability. CHEMOSPHERE[J]. 2020, 254: http://dx.doi.org/10.1016/j.chemosphere.2020.126849.
[47] Fu, Disong, Song, Zijue, Zhang, Xiaoling, Wu, Yunfei, Duan, Minzheng, Pu, Weiwei, Ma, Zhiqiang, Quan, Weijun, Zhou, Huaigang, Che, Huizheng, Xia, Xiangao. Similarities and Differences in the Temporal Variability of PM2.5 and AOD Between Urban and Rural Stations in Beijing. REMOTE SENSING[J]. 2020, 12(7): http://dx.doi.org/10.3390/rs12071193.
[48] Liu, Hang, Pan, Xiaole, Wu, Yunfei, Ji, Dongsheng, Tian, Yu, Chen, Xueshun, Wang, Zifa. Size-resolved mixing state and optical properties of black carbon at an urban site in Beijing. SCIENCE OF THE TOTAL ENVIRONMENT[J]. 2020, 749: http://dx.doi.org/10.1016/j.scitotenv.2020.141523.
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[101] 焦艳, 张仁健, 傅刚, 武云飞, 陶俊, 成天涛, 冷春鹏. 上海冬季PM2.5及气溶胶光学特性的观测研究. 地球环境学报[J]. 2012, 3(5): 1097-1103, http://lib.cqvip.com/Qikan/Article/Detail?id=666254929.
[102] Wu Yunfei, Zhang Renjian, Han Zhiwei, Zeng Zhaomei. Relationship between East Asian Monsoon and Dust Weather Frequency over Beijing. ADVANCES IN ATMOSPHERIC SCIENCES[J]. 2010, 27(6): 1389-1398, http://lib.cqvip.com/Qikan/Article/Detail?id=35559690.

科研活动

   
科研项目
( 1 ) 探讨典型半干旱区大气气溶胶的光谱吸收特性及不同成分对其影响—基于改进的吸收测量方法, 负责人, 国家任务, 2014-01--2016-12
( 2 ) 典型城市黑碳气溶胶光谱吸收效率的变化特征及其影响机制, 负责人, 国家任务, 2018-01--2021-12
( 3 ) 关中地区大气重污染的加强观测与成因研究, 参与, 中国科学院计划, 2017-07--2019-12
( 4 ) 大气重污染成因与治理攻关项目, 参与, 国家任务, 2017-04--2019-09
( 5 ) 地球系统模式中的气溶胶模式研发及气溶胶气候效应评估, 参与, 国家任务, 2019-11--2024-10
( 6 ) 东部典型农村地区气溶胶吸湿增长及参数化方案研究, 负责人, 国家任务, 2023-01--2026-12
( 7 ) 重点区域城市和城市群大气环境气候影响机制及适应对策, 参与, 国家任务, 2022-12--2027-11
参与会议
(1) Effect of Source Variation on the Size and Mixing State of Black Carbon Aerosol in Urban Beijing from 2013 to 2019: Implication on Light Absorption   亚洲大洋洲地球科学学会19届年会   2022-08-01
(2)A study of the morphology and effective density of externally mixed black carbon aerosols in ambient air using a size-resolved single-particle soot photometer   第十一届亚洲气溶胶会议   2019-05-30
(3)Aerosol optical absorption coefficients at a rural site in Northwest China: The great contribution of dust particles   AGU-CAS联合会议:全球PM2.5研究与治理大会   武云飞   2018-10-19
(4)Size distribution and source of black carbon aerosol in urban Beijing during winter haze episodes   第十届亚洲气溶胶会议   武云飞   2017-07-04
(5)Effect of ambient humidity on the light absorption amplification of black carbon in Beijing during January 2013   2014年国际气溶胶会议   Yunfei Wu, Renjian Zhang   2014-08-30

指导学生

已指导学生

王晓佳  博士研究生  070602-大气物理学与大气环境  

李继伟  博士研究生  070602-大气物理学与大气环境  

夏芸洁  博士研究生  070602-大气物理学与大气环境  

蒋陈  硕士研究生  085229-环境工程  

李迅如  硕士研究生  085700-资源与环境  

方艺  硕士研究生  085700-资源与环境  

现指导学生

张峻搏  硕士研究生  085700-资源与环境  

左镇瑜  硕士研究生  085700-资源与环境  

尚飞  硕士研究生  085700-资源与环境