个人简历
教授、博导、长期从事大气环境与大气化学研究,近年来专注于
[1] 大气新粒子生成的大气观测与实验室研究
[2] 大气成分的质谱测量方法
取得一系列创新性成果,共发表SCI论文60余篇,其中第一或者通讯作者论文30余篇,总引用数3000余次。主持国家自然科学基金4项(3面上+1青年)、科技部重点研发计划青年项目1项、省级项目6项。
主持项目
[15] 国家重点研发计划重点专项“特大城市群工业集聚区大气-土壤-地下水污染综合防控关键技术及示范”,2023YFC3709801,子课题,2023.12-2027.11
[14] 武昌区氮氧化物来源及防控对策研究项目, xxx万元, 2022-2023年
[13] 武汉市细颗粒物和臭氧污染协同防控“一市一策”项目, xxx万元, 2021-2024年
[12] 中国地质大学人才启动经费,xxx 万元,2019-2024年
[11] 国家自然科学基金面上项目,42175131,二甲基硫几种气态含硫氧化产物的成核能力及对近海大气新粒子成核路径贡献的实测研究,2022年1月1日-2025年12月31日,58万,在研
[10] 国家自然科学基金面上项目,41975831,我国沿海新粒子爆发热点地区碘新粒子的来源及其对大气气溶胶的贡献研究,2020年1月1日-2023年12月31日,68万,在研
[9] 科技部大气污染成因与控制技术重点专项(青年项目),2016YFC0203100,基于实验模拟的超细粒子成核与生长速率参数化研究,2016-2020,214万元,结题
[8] 国家自然科学基金面上项目,41675124,长三角地区1-10 nm大气新粒子的成核与生长速率及关键性物理化学影响因素的的研究,2017-2020,68万,结题
[7] 国家自然科学基金青年项目,41405116,植物挥发性有机物与二氧化硫联合作用生成大气新粒子的实验研究,2015-2017,28万,结题
[6] 江苏省“六大人才高峰”高层次人才项目,大气超细粒子来源解析,2017-2019,5万元,在研
[5] 江苏省自然科学青年基金项目,BK20140989,南京地区区域性与局地性大气新粒子生成的特征、来源和贡献研究,2014-2017,20万
[4] 江苏特聘教授项目,雾霾颗粒物监测与机理,2014-2017,130万,结题
[3] 江苏省“双创团队”子课题,气溶胶光学特性和吸湿性的观测研究,2017-2019,75万,结题
[2] 江苏双创计划,2014-2017,15万元,结题
[1] 宿迁市环保局项目,宿迁市大气颗粒物源解析与减排方案研究,2015-2016,72万元,结题
发表论文
[56] Wang, X., Y. Zhao, K. Hu, J. Wang, Q. Wang, N. Chen, B. Zhu, H.-H. Zhang, and H. Yu (2024), Linking Precursors and Volatility of Ambient Oxygenated Organic Aerosols Using Thermal Desorption Measurement and Machine Learning, ACS ES&T Air. https://doi:10.1021/acsestair.4c00076
[55] Zhao, Y., K. Hu, J. Wang, Q. Wang, P. Wang, N. Chen, B. Zhu, H.-H. Zhang, and H. Yu (2024), Quantifying New Sources of Ambient Organic Aerosol and Their Roles in Particle Growth Using Oxygenated Organic Molecule (OOM) Tracers, Environmental Science & Technology Letters. https://doi:10.1021/acs.estlett.4c00536
[54] Xin, X., Y. Zhao, Y. Wan, H. Zhang, and H. Yu (2024), Molecular composition of organic aerosols in urban and marine atmosphere: A comparison study using FIGAERO-I-CIMS, ESI-FT-ICR MS, and GC × GC-EI-ToF-MS, Aerosol Science and Technology, 58(10), 1142-1156. https://doi:10.1080/02786826.2024.2377394
[53] Chong Xing, Yibei Wan, Qiongqiong Wang, Xiangpeng Huang, Xinlei Ge, Mingjie Xie, Huan Yu*, Molecular characterization of brown carbon chromophores in atmospherically-relevant samples and their gas-particle partitioning in the atmosphere, JGR-Atmosphere, 128, e2022JD038142, 2023.
[52] 陈明, 汪琼琼, 余欢, 武汉市大气细颗粒物源解析综述, 环境科学与技术, 2023, 46(6): 197-202.
[51] Shi, Y., C. Huang, C. Huang, H. Zhang, L. Tong, Q. Cai, J. He, H. Xu, H. Yu, and H. Xiao, The impact of emission reduction policies on the results of PM2.5 emission sources during the 2016 G20 summit: Insights from carbon and nitrogen isotopic signatures, Atmospheric Pollution Research, 14(6), 101784, 2023.
[50] Yibei Wan, Xiangpeng Huang, Chong Xing, Qiongqiong Wang, Xinlei Ge, Huan Yu*, Chemical characterization of organic compounds involved in iodine-initiated new particle formation from coastal macro-algal emission, Atmospheric Chemistry and Physics, 22, 15413–15423, 2022.
[49] Yibei Wan, Chong Xing, Zhaomin Yang, Xiangpeng Huang, Xinlei Ge, Lin Du, Qiongqiong Wang, Huan Yu*, Nontarget tandem high-resolution mass spectrometry analysis of functionalized organic compounds in atmospherically-relevant samples, Environ. Sci. Technol. letters, doi: 10.1021/acs.estlett.2c00788, 2022.
[48] Rongrong Wu, Yu Zhao, Sijia Xia, Wei Hu, Fangjian Xie, Yan Zhang, Jinjin Sun, Huan Yu, Junlin An, Yutong Wang, Reconciling the bottom-up methodology and ground measurement constraints to improve the city-scale NMVOCs emission inventory: A case study of Nanjing, China, Science of The Total Environment, 812:152447, 2022.
[47] 陈静,李军,熊文瑄,邢崇,余欢*,石勇, 武汉市典型氮氧化物污染过程与来源分析,环境科学与技术,8:140-147, 2022.
[46] Xiangpeng Huang, Xinlei Ge, Dan Liu, Lei Tong, Dongyang Nie, Fuzhen Shen, Mengrong Yang, Yangzhou Wu, Hang Xiao, Huan Yu. Size-dependent formation rate and growth rate of neutral and charged new particles in coastal atmosphere of eastern China, Atmospheric Environment, 270:118899, 2022
[45] 尚玥,余欢,茅宇豪,王成, 谢鸣捷*. 南京北郊PM2.5中有机组分的吸光性质及来源. 环境科学, 2021,42(3):1228-1235.
[44] Jingsha Xu, Chunrong Jia, Huan Yu, Honghui Xu, Dongsheng Ji, Chengjun Wang, Hang Xiao, Jun He,
Characteristics, sources, and health risks of PM2.5-bound trace elements in representative areas of Northern Zhejiang Province, China, Chemosphere, 272, 2021.
[43] Xiaoyu Jiao, Congcong He, Jun He, Huan Yu, ChengjunWang, Photo-generated hydroxyl radicals contribute to the formation 2 of halogen radicals leading to ozone depletion on and within polar stratospheric clouds surface, Science of The Total Environment, 2021
[42] Chen, K., Metcalfe, S.E., Yu, H., Xu, J., Xu, H., Ji, D., Wang, C., Xiao, H., He, J. Characteristics and source attribution of PM2.5 during 2016 G20 Summit in Hangzhou: Efficacy of radical measures to reduce source emissions, Journal of environmental sciences, 106: 47-65. 2021.
[41] Lord Famiyeh; Ke Chen; Jingsha Xu; Yong Sun; Qingjun Guo; Chengjun Wang; Jungang Lv; Yu-Ting Tang; Huan Yu; Colin Snape, Jun He; A review on analysis methods, source identification, and cancer risk evaluation of atmospheric polycyclic aromatic hydrocarbons, Science of The Total Environment, 2021
[40] Haoran Zhang; Nan Li*; Keqin Tang; Hong Liao; Chong Shi; Jianlin Hu; Xinlei Ge; Mindong Chen; Zhenxin Liu; Huan Yu. Estimation of Secondary PM2.5 in China and the United States using a Multi-Tracer Approach, Atmospheric Chemistry and Physics, 2021
[39] Wan, Y., Huang, X., Ge, X., Jiang, B., Liao, Y., Yan, Q., Shuai, Q., Fu, Q.L. Xiao, H., Yu, H*. (2021). Size-dependent molecular characteristics and possible sources of organic aerosols at a coastal new particle formation hotspot of East China. Journal of Geophysical Research: Atmospheres, 126, e2021JD034610. https://doi.org/10.1029/2021JD034610
[38] Deming Xia, Jingwen Chen*, Huan Yu* et al. Formation Mechanisms of Iodine−Ammonia Clusters in Polluted Coastal Areas Unveiled by Thermodynamics and Kinetic Simulations, Environmental Science and Technology. 54, 15, 9235–9242, 2020
[37] Wan Y. Yu, H*. Huang X.P. et al. Probing key organic substances driving new particle growth initiated by iodine nucleation in coastal atmosphere, Atmospheric Chemistry and Physics. 20, 9821–9835, 2020
[36] Chen, D., Zhao, Y., Zhang, J., Yu, H., and Yu, X.: Characterization and source apportionment of aerosol light scattering in a typical polluted city in Yangtze River Delta, China, Atmos. Chem. Phys., 20, 10193–10210, 2020.
[35] Huang, X., Yu, H.* et al. Real-time non-refractory PM1 chemical composition, size distribution and source apportionment at a coastal industrial park in the Yangtze River Delta region, China, Science of Total Environment, 2020. https://doi.org/10.1016/j.scitotenv.2020.142968.
[34] Vijay P. Kanawade*, Sachchida N. Tripathi, Abhishek Chakraborty and Huan Yu, Chemical characterisation of sub–micron aerosols during new particle formation in an urban atmosphere, Aerosol and Air Quality Research, 2020
[33] Yu, H.*, Ren, L., Huang, X., Xie, M., He, J., and Xiao, H., Iodine speciation and size distribution in ambient aerosols at a coastal new particle formation hotspot of China, Atmospheric Chemistry and Physics, 19, 4025-4039, 2019.
[32] Zhao W., Tang G.*, Yu, H. * et al., Evolution of boundary layer ozone in Shijiazhuang, a suburban site on the North China Plain, Journal of Environmental Sciences, 83, 152-160, 2019.
[31] Xu, J., Jia, C., He, J., Xu, H., Tang, Y.-T., Ji, D., Yu, H., Xiao, H., Wang, C., Biomass burning and fungal spores as sources of fine aerosols in Yangtze River Delta, China – Using multiple organic tracers to understand variability, correlations and origins. Environmental Pollution, 251, 155-165, 2019.
[30] Wei Hu, Huan Yu*, Jun He, Zhaolian Ye: Decomposition efficiency and aerosol by-products of toluene, ethyl acetate and acetone using dielectric barrier discharge, Chemosphere, 237, 124439, 2019.
[29] Shan-Hu Lee*, Hamish Gordon, Huan Yu, Katrianne Lehtipalo, Ryan Haley, Yixin Li and Renyi Zhang, New Particle Formation in the Atmosphere: From Molecular Clusters to Global Climate, Journal of Geophysical Research-Atmosphere, 124. https://doi.org/ 10.1029/2018JD029356, 2019.
[28] Tiszenkel, L., Stangl, C., Krasnomowitz, J., Ouyang, Q., Yu, H., Apsokardu, M. J., Johnston, M. V., and Lee, S.-H.*, Temperature Effects on Sulfuric Acid Aerosol Nucleation and Growth: Initial Results from the TANGENT Study, Atmospheric Chemistry and Physics, 19, 8915-8929, 2019.
[27] Chen, D., Zhao, Y., Lyu, R., Wu, R., Dai, L., Zhao, Y., Chen, F., Zhang, J., Yu, H., Guan, M., Seasonal and spatial variations of optical properties of light absorbing carbon and its influencing factors in a typical polluted city in Yangtze River Delta, China, Atmospheric Environment, 199, 45-54, 2019.
[26] Huan Yu*, Wei Dai, Lili Ren, Dan Liu, Xintian Yan, Hang Xiao, Jun He, Honghui Xu, The Effect of Emission Control on Submicron Particulate Matter Size Distribution in Hangzhou during the 2016 G20 Summit, Aerosol and Air Quality Research, 18(8), 2038-2046, 2018.
[25] Shaofei Kong*, Qin Yan, Huang Zheng, Haibiao Liu, Wei Wang, Shurui Zheng, Guowei Yang, Mingming Zheng, Jian Wu, Shihua Qi, Guofeng Shen, Lili Tang, Yan Yin, Tianliang Zhao, Huan Yu, Dantong Liu, Delong Zhao, Tao Zhang, Jujun Ruan, Mingzhi Huang, Substantial reductions in ambient PAHs pollution and lives saved as a co-benefit of effective long-term PM2.5 pollution controls, Environment International, 114, 266-279, 2018.
[24] 严心田;李楠;余欢;方昊;陆一磊,典型会议期间污染调控对城市空气质量影响分析,《南京理工大学学报》(自然科学版),42卷,2018年06期,页码:739, 2018
[23] Wu, Y., Ge, X.*, Wang, J., Shen, Y., Ye, Z., Ge, S., Wu, Y., Yu, H., Chen, M., Responses of secondary aerosols to relative humidity and photochemical activities in an industrialized environment during late winter. Atmospheric Environment, 193, 66-78, 2018.
[22] Tomatis, M.; Xu, H.; Wei, C.; Bishop, M.T.; He, J.*; Wang, C.; Zhao, M.; Xiao, H.; Yu, H.; Behera, S.N.; Tang, B. A Comparative Study of Mn/Co Binary Metal Catalysts Supported on Two Commercial Diatomaceous Earths for Oxidation of Benzene. Catalysts, 8, 111, 2018.
[21] Xu, J., He, J.*, Xu, H., Ji, D., Snape, C., Yu, H., Jia, C., Wang, C., Gao, J., Simultaneous measurement of multiple organic tracers in fine aerosols from biomass burning and fungal spores by HPLC-MS/MS, RSC Advances, 8, 34136-34150, 2018.
[20] Huan Yu*, Liang Dai, Yi Zhao, V. P. Kanawade, S. N. Tripathi, Xinlei Ge, Mindong Chen and Shan-Hu Lee, Laboratory Observations of Temperature- and Humidity- Dependencies of Nucleation and Growth Rates of Sub-3 nm Particles, Journal of Geophysical Research-Atmosphere, 122(3), 1919-1929;2017.
[19] Liang Dai, Honglei Wang, Luyu Zhou, Junlin An, Lili Tang, Chunsong Lu, Wenlian Yan, Ruiyang Liu, Shaofei Kong, Mindong Chen, Shanhu Lee and Huan Yu*, Regional and local new particle formation events observed in the Yangtze River Delta region, China, Journal of Geophysical Research-Atmosphere, 122(4), 2389-2402, 2017.
[18] Huan Yu*, Lili Ren and Vijay P. Kanawade*, New Particle Formation and Growth Mechanisms in Highly Polluted Environments, Current Pollution Reports, 3(4), 245-253, 2017.
[17] Wenchao Shen; Lili Ren; Yi Zhao; Luyu Zhou; Liang Dai; Xinlei Ge; Shaofei Kong; Honghui Xu; Yujun Jiang; Jun He; Mindong Chen; Huan Yu*, C1-C2 alkylamines in urban aerosols: insights from ambient and fuel combustion emission measurements in the Yangtze River Delta region of eastern China, Environmental Pollution, 230, 12-21, 2017.
[16] Kontkanen*, J., K. Lehtipalo, L. Ahonen, J. Kangasluoma, H. E. Manninen, J. Hakala, C. Rose, K. Sellegri, S. Xiao, L. Wang, X. Qi, W. Nie, A. Ding, H. Yu, S.-H. Lee, V.-M. Kerminen, T. Petaja, and M. Kulmala, Measurements of sub-3 nm particles using a particle size magnifier in different environments: from clean mountain top to polluted megacities, Atmospheric Chemistry and Physics, 17, 2163-2187, 2017.
[15] Xu, J.S., Xu, M.X., Snape, C., He, J.*, Behera, S.N., Xu, H.H., Ji, D.S., Wang, C.J., Yu, H., Xiao, H., Jiang, Y.J., Qi, B., Du, R.G., Temporal and spatial variation in major ion chemistry and source identification of secondary inorganic aerosols in Northern Zhejiang Province, China, Chemosphere, 179, 316-330, 2017.
[14] Yu, H.*, L.Y. Zhou, L. Dai, W.C. Shen, J. Zheng, Y. Ma, and M.D. Chen, Nucleation and growth of sub-3nm particles in the polluted urban atmosphere of a megacity in China, Atmospheric Chemistry and Physics, 16, 2641-2657, 2016.
[13] Junfeng Wang, Timothy B. Onasch, Xinlei Ge*, Sonya Collier, Qi Zhang, Yele Sun, Huan Yu, Mindong Chen, Andre S. H. Prevot, and Douglas R. Worsnop, Observation of Fullerene Soot in Eastern China,Environmental Science and Technology Letters, 3 (4), 121-126, 2016.
[12] Wang, J., Ge, X.*, Chen, Y., Shen, Y., Zhang, Q., Sun, Y., Xu, J., Ge, S., Yu, H., and Chen, M.: Highly time-resolved urban aerosol characteristics during springtime in Yangtze River Delta, China: insights from soot particle aerosol mass spectrometry, Atmospheric Chemistry and Physics, 16, 9109-9127, 2016.
[11] Yu, Huan*, Ortega, John, Smith, James, Guenther, Alex et al., New Particle Formation and Growth in an Isoprene-Dominated Ozark Forest: From Sub-5 nm to CCN-Active Sizes. Aerosol Science and Technology, 48(12): 1285-1298, 2014.
[10] Yu, Huan*, A. Gannet Hallar, Yi You, Arthur Sedlacek, Stephen Springston, et al., Sub-3 nm particles observed at the coastal and continental sites in the United States, Journal of Geophysical Research-Atmosphere, 119(2): 860-879, 2014.
[9] Kanawade,V.P.*, S. Shika, C. Pöhlker, D. Rose, M.N.S. Suman, H. Gadhavi, Ashwini Kumar, S. M. Shiva Nagendra, R. Ravikrishna, Huan Yu, L.K. Sahu, A. Jayaraman, M.O. Andreae, U. Pöschl, S.S. Gunthe, Infrequent occurrence of new particle formation at a semi-rural location in tropical Southern India, Atmospheric Environment, 2014, 94:264-273.
[8] Yu. H. and S.-H. Lee*, Chemical Ionization Mass Spectrometry for the Measurement of Atmospheric Amines, Environmental Chemistry, 9(3): 190-201, 2012.
[7] Yu, H., R. L. McGraw, and S.-H. Lee*, Effects of Amines on Formation of Sub-3 nm Particles and Their Subsequent Growth, Geophysical Research Letters, 39(2): L02807, 2012.
[6] Huan Yu* and Jianzhen Yu, Atmospheric Environment, 54(1), 194-200, doi:10.1016/j.atmosenv.2012.02.033, 2012.
[5] Lee S.H.*, S. Mukherjee, K. Bonner, H. Yu, and M. Gangoda, A Laboratory Experiment to Measure Henry’s Law Constants of Volatile Organic Compounds with a Bubble Column and GC-FID, Journal of Chemical Education. 2012, 90(4):495-499.
[4] Benson, D. R., H. Yu, A. Markovich, and S.-H. Lee*, Ternary Homogeneous Nucleation of H2SO4, NH3, and H2O under Conditions Relevant to the Lower Troposphere, Atmospheric Chemistry and Physics, 11: 4755-4766, 2011.
[3] Yu, H., C. Wu, D. Wu and J.Z. Yu*, Size Distributions of Elemental Carbon and its Contribution to Light Extinction in Urban and Rural Locations in the Pearl River Delta region, China, Atmospheric Chemistry and Physics, 10, 5107-5119, 2010.
荣誉获奖
2023年 武昌区第十六届人大常委会咨询专家
2023年 中国地质大学"大气与环境地球化学"特色学科团队
2020年 湖北省环境科学学会理事
2019年 获聘湖北省楚天学者特聘教授
2018年 南京信息工程大学优秀硕士学位论文指导教师
2017年 入选江苏省“六大人才高峰”高层次人才计划
2017年 南京信息工程大学年度先进教师
2016年 获得环境保护部科学技术奖二等奖(工业废气VOCs处理关键技术、装备研发及产业化应用,KJ2016-2-0)
2016年 入选江苏省“双创团队”(核心成员)
2014年 入选“江苏省特聘教授”
2014年 入选江苏“境外名校创新博士集聚计划”
2014年 南京信息工程大学年度先进教师
2012年 获得加拿大政府自然科学与工程研究理事会(NSERC) fellowship award
实验室仪器设备
1. 高分辨率化学电离质谱CIMS及多种电离源
2. 气溶胶粒径谱仪SMPS、PSM、NAIS
3. Orbitrap MS、FT-ICR MS、GC-MS(学院测试平台)
4. 烟雾箱及流动管反应器
5. nano-MOUDI、Dekati Gravimetric Impactor、大流量颗粒物采样器
6. 有机样品的前处理设备
工作经历
2019- 中国地质大学(武汉)
2013-2019 南京信息工程大学
2012-2013 加拿大环境部空气质量研究所
2010-2012 美国肯特州立大学
教育经历
2005-2009 香港科技大学,博士,大气化学
1998-2005 南开大学,环境科学
联系方式
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