南京信息工程大学环境科学与工程学院导师教师师资介绍简介-廖宏

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个人简介

姓名:廖宏
出生年月:1965年9月25日
性别:女
导师:博士生导师
职称:教授
职务:院长
最高学历:博士
工作单位:环境科学与工程学院
毕业院校:美国加州理工学院
办公地点:学科1号楼C204
邮箱:hongliao@nuist.edu.cn
主要研究领域:大气环境与气候变化

教育背景:
1982.9-1986.7北京大学地球物理系气象专业学士
1986.9-1989.8北京大学地球物理系大气动力学硕士
1995.9-2001.9美国加州理工学院环境科学与工程博士

工作经历:
1989.08-1993.08中国气象科学研究院助研
2001.10-2002.09美国加州理工学院博士后
2002.10-2006.02美国加州理工学院助理科学家
2003.05-2006.02美国橡树岭国家实验室访问科学家
2006.03-2016.02中科院大气物理研究所研究员（二级）
2016.03-南京信息工程大学教授（二级）

学术兼职:
2011-2017 WCRP/Joint Scientific Committee委员及官员
2012- WCRP中国委员会副主席
2011-2019GEOS-Chem模式科学指导委员会委员
2013- WCRP-SPARC-IGBP-IGAC CCMI指导委员会委员
2007- “Advances in Atmospheric Science”期刊编委
2014- “Atmospheric Environment"期刊编委
2012- “Earth Perspectives”期刊副主编
2017.11-2020.12 "Earths Future"期刊编委

荣誉获奖:
2008年国家****基金获得者
2009年入选新世纪百千****才工程国家级人选
2011年****终期评估优秀
2013年获政府特殊津贴
2015年入选“中国科学院特聘研究员计划”特聘核心骨干
2016年获首届“全国杰出科技人才”奖
2016年入选第七届“全国优秀科技工作者”
2016年入选江苏省双创团队
2017年获“江苏省巾帼建功标兵”称号
2019年获评“全国教育系统先进工作者”
2019年“廖宏创新工作室”入选江苏省教科系统示范性劳模和工匠人才创新工作室
2019年获江苏省研究生教育教学改革成果二等奖（排名第一）
2019年获江苏省智库研究与决策咨询优秀成果一等奖（排名第一）
2020年获“2019年度生态环境十大科技进展“ （排名第一）
2020年获美国地球物理学会全球环境变化职业中期奖

近期主要论著:

英文期刊论文：[158] Zhai S., D. J. Jacob, X. Wang, Z. Liu, T. Wen, V. Shah, K. Li, J. Moch, K. H. Bates, S. Song, L. Shen, Y. Zhang, G. Luo, F. Yu, Y. Sun, L. Wang, M. Qi, J. Tao, K. Gui, H. Xu, Q. Zhang, T. Zhao, H. C. Lee, H. Choi, H. Liao, Control of particulate nitrate air pollution in China,Nature Geoscience,submitted, 2021.[PDF]
[157] Li N., K. Tang, Y. Wang, J. Wang, W. Feng, H. Zhang, H. Liao, J. Hu, X. Long, C. Shi, and X. Su, Is the efficacy of satellite-based inversion of SO2 emission model dependent?,Environmental Research Letters,in press, 2021.[PDF]
[156] Liang M., H. Liao*, Y. Huang, Z. Qiao, C. Tan, and R. Liu, A questionnaire case study of opinions of Chinese agricultural workers on the coordinated control of emissions of ammonia,Sustainability,13, 1994, doi:10.3390/su**, 2021.[PDF]
[155] Li K., D. J. Jacob*, H. Liao*, Y. Qiu, L. Shen, S. Zhai, K. H. Bates, M. P. Sulprizio, S. Song, X. Lu, Q. Zhang, B. Zheng, Y. Zhang, J. Zhang, H. C. Lee, and S. K. Kuk, Ozone pollution in the North China Plain spreading into the late-winter haze season,PNAS,in press, 2021.[PDF]
[154] Jiang Z., J. Li, X. Lu, C. Gong, L. Zhang, and H. Liao, Impact of Western Pacific Subtropical High on ozone pollution over Eastern China,Atmos. Chem. Phys.,21, 2601-2613, doi:10.5194/acp-21-2601-2021, 2021.[PDF]
[153] Wang J., J. Ye, Q. Zhang, J. Zhao, Y. Wu, J. Li, D. Liu, W. Li, Y. Zhang, C. Wu, C. Xie, Y. Qin, Y. Lei, X. Huang, J. Guo, P. Liu, P. Fu, Y. Li, H. C. Lee, S. Hwang, J. Zhang, H. Liao, M. Chen, Y. Sun, X. Ge, S. T. Martin, and D. J. Jacob, Aqueous production of secondary organic aerosol from fossil fuel emissions in winter Beijing haze,PNAS,118, e, doi:10.1073/pnas., 2021.[PDF]
[152] Li L., J. Hu, J. Li, K. Gong, X. Wang, Q. Ying, M. Qin, H. Liao, S. Guo, M. Hu and Y. Zhang, Modelling air quality during the EXPLORE-YRD campaign - Part II. Regional source apportionment of ozone and PM2.5,Atmos. Environ.,247, 118063, doi:10.1016/j.atmosenv.2020.118063, 2021.[PDF]
[151] Wang X., L. Li, K. Gong, J. Mao, J. Hu, J. Li, Z. Liu, H. Liao, W. Qiu, Y. Yu, H. Dong, S. Guo, M. Hu, L. Zeng, and Y. Zhang, Modelling air quality during the EXPLORE-YRD campaign – Part I. Model performance evaluation and impacts of meteorological inputs and grid resolutions,Atmos. Environ.,246, 118131, doi:10.1016/j.atmosenv.2020.118131, 2021.[PDF]
[150] Wang P., Y. Yang, J. Tang, L. R. Leung, and H. Liao, Intensified humid heat events under global warming,Geophys. Res. Lett.,48, e2020GL091462, doi:10.1029/2020GL091462, 2021.[PDF]
[149] Dai H., J. Zhu, H. Liao*, J. Li, M. Liang, Y. Yang, and X. Yue, Co-occurrence of ozone and PM2.5 pollution in the Yangtze River Delta over 2013-2019: spatiotemporal distribution and meteorological conditions,Atmos. Res.,249, 105363, doi:10.1016/j.atmosres.2020.105363, 2021.[PDF]
[148] Dang R., H. Liao*, and Y. Fu, Quantifying the anthropogenic and meteorological influences on summertime surface ozone in China over 2012-2017,Science of the Total Environment,754, 142394, doi:10.1016/j.scitotenv.2020.142394, 2021.[PDF]
[147] Li H., Y. Yang, H. Wang, B. Li, P. Wang, J. Li, and H. Liao, Constructing a spatiotemporally coherent long-term PM2.5 concentration dataset over China using a machine learning approach,Science of the Total Environment,765, 144263, doi:10.1016/j.scitotenv.2020.144263, 2021.[PDF]
[146] Zhu J., L. Chen*, H. Liao*, H. Yang, Y. Yang, and X. Yue, Enhanced PM2.5 Decreases and O3 Increases in China during COVID-19 Lockdown by Aerosol-Radiation Feedback,Geophys. Res. Lett.,48, e2020GL090260, doi:10.1029/2020GL090260, 2021.[PDF]
[145] Gu Y., F. Yan, J. Xu, Y. Qu, W. Gao, F. He, and H. Liao, A measurement and model study on ozone characteristics in marine air at a remote island station and its interaction with urban ozoneair quality in Shanghai, China,Atmos. Chem. Phys.,20, 14361-14375, doi:10.5194/acp-20-14361-2020, 2020.[PDF]
[144] Pan S., T. Dou, L. Lin, J. Yang, F. Zhang, M. Duan, C. Zhao, H. Liao, and C. Xiao, Larger sensitivity of Arctic precipitation phase to aerosol than greenhouse gas forcing,Geophys. Res. Lett.,47, e2020GL090452, doi:10.1029/2020GL090452, 2020.[PDF]
[143] Jin J.*, A. Segers, H. Liao*, A. Heemink, R. Kranenburg, and H. Lin, Source backtracking for dust storm emission inversion using an adjoint method: case study of Northeast China,Atmos. Chem. Phys.,20, 15207-15225, doi:10.5194/acp-20-15207-2020, 2020.[PDF]
[142] Chen D., H. Liao*, Y. Yang*, L. Chen, and H. Wang, Simulated aging processes of black carbon and its impact during a severe winter haze event in the Beijing-Tianjin-Hebei region,Science of the Total Environment,755, 142712, doi:10.1016/j.scitotenv.2020.142712, 2020.[PDF]
[141] Liu T., X. Wang, J. Hu, Q. Wang, J. An, K. Gong, J. Sun, L. Li, M. Qin, J. Li, J. Tian, Y. Huang, H. Liao, M. Zhou, Q. Hu, R. Yan, H. Wang, and C. Huang, Driving forces of changes in air quality during the COVID-19 lockdown period in the Yangtze River Delta region,Environ. Sci. Technol. Lett.,doi:10.1021/acs.estlett.0c00511, 2020.[PDF]
[140] Wei X., Y. Zhu, J. Hu, C. Liu, X. Ge, S. Guo, D. Liu, H. Liao, and H. Wang, Recent progress in impacts of mixing state on optical properties of black carbon aerosol,Current Pollution Reports,doi:10.1007/s40726-020-00158-0, 2020.[PDF]
[139] Yang Y., L. Ren, H. Li, H. Wang, P. Wang, Y. Hu, L. Chen, X. Yue, and H. Liao, Fast climate responses from aerosol emission reductions during the COVID-19,Geophys. Res. Lett.,47, e2020GL089788, doi:10.1029/2020GL089788, 2020.[PDF]
[138] Qiu Y., Z. Ma, K. Li, W. Lin, Y. Tang, F. Dong, and H. Liao, High levels of peroxyacetyl nitrate (PAN) in Beijing during January?February 2020: impacts of enhanced photochemistry,Geophys. Res. Lett.,47, e2020GL089623, doi:10.1029/2020GL089623, 2020.[PDF]
[137] Li K., D. J. Jacob, L. Shen, X. Lu, I. De Smedt, and H. Liao, Increases in surface ozone pollution in China from 2013 to 2019: anthropogenic and meteorological influences,Atmos. Chem. Phys.,20, 11423-11433, doi:10.5194/acp-20-11423-2020, 2020.[PDF]
[136] Feng J., H. Liao, Y. Li, Z. Zhang, Y. Tang, Long-term trends and variations in haze-related weather conditions in north China during 1980–2018 based on emission-weighted stagnation intensity,Atmos. Environ.,240, 117830, doi:10.1016/j.atmosenv.2020.117830, 2020.[PDF]
[135] Ge B., S. Itahashi, K. Sato, D. Xu, J. Wang, F. Fan, Q. Tan, J. S. Fu, X. Wang, K. Yamaji, T. Nagashima, J. Li, M. Kajino, H. Liao, M. Zhang, Z. Wang, M. Li, J.-H. Woo, J. Kurokawa, Y. Pan, Q. Wu, X. Liu, and Z. Wang, MICS-Asia III: Multi-model comparison of reactive Nitrogen deposition over China,Atmos. Chem. Phys.,20, 10587-10610, doi:10.5194/acp-20-10587-2020, 2020.[PDF]
[134] Wang Y., and H. Liao*, Effect of emission control measures on ozone concentrations in Hangzhou during G20 meeting in 2016,Chemosphere,261, 127729, doi:10.1016/j.chemosphere.2020.127729, 2020.[PDF]
[133] Chen L., J. Zhu, H. Liao*, Y. Yang, and X. Yue, Meteorological influences on PM2.5 and O3 trends and associated health burden since China's clean air actions,Science of the Total Environment,744, 140837, doi:10.1016/j.scitotenv.2020.140837, 2020.[PDF]
[132] Wang X., D. J. Jacob, X. Fu, T. Wang, M. Le Breton, M. Hallquist, Z. Liu, E. McDuffie, and H. Liao, Effects of anthropogenic chlorine on PM2.5 and ozone air quality in China,Environ. Sci. Technol.,doi:10.1021/acs.est.0c02296, 2020.[PDF]
[131] Feng J., J. Zhu, J. Li, and H. Liao, Aerosol concentrations variability over China: two distinct leading modes,Atmos. Chem. Phys.,20, 9883-9893, doi:10.5194/acp-20-9883-2020, 2020.[PDF]
[130] Ren L., Y. Yang, H. Wang, R. Zhang, P. Wang, and H. Liao, Source attribution of Arctic black carbon and sulfate aerosols and associated Arctic isurface warming during 1980–2018,Atmos. Chem. Phys.,20, 9067-9085, doi:10.5194/acp-20-9067-2020, 2020.[PDF]
[129] Gong C., H. Liao*, L. Zhang, X. Yue, R. Dang, and Y. Yang, Persistent ozone pollution episodes in North China exacerbated by regional transport,Environmental Pollution,265, 115056, doi:10.1016/j.envpol.2020.115056, 2020.[PDF]
[128] Mao Y., X. Zhao, H. Liao, D. K. Henze, H. Cao, L. Zhang, J. Li, L. Ran, Q. Zhang, and J. Li, Sources of black carbon during severe haze events in the Beijing–Tianjin–Hebei region using the adjoint method,Science of the Total Environment,740, 140149, doi:10.1016/j.scitotenv.2020.140149, 2020.[PDF]
[127] Li B., S. Zhou*, T. Wang, Y. Zhou, L. Ge, and H. Liao*, Spatio-temporal distribution and influencing factors of atmospheric polycyclic aromatic hydrocarbons in the Yangtze River Delta,Journal of Cleaner Production,267, 122049, doi:10.1016/j.jclepro.2020.122049, 2020.[PDF]
[126] Dong Y., J. Li, J. Guo, Z. Jiang, Y. Chu, L. Chang, Y. Yang, and H. Liao, The impact of synoptic patterns on summertime ozone pollution in the North China Plain,Science of the Total Environment,735:139559, doi:10.1016/j.scitotenv.2020.139559, 2020.[PDF]
[125] Tan J., J. S. Fu, G. R. Carmichael, S. Itahashi, Z. Tao, K. Huang, X. Dong, K. Yamaji, T. Nagashima, X. Wang, Y. Liu, H.-J. Lee, C.-Y. Lin, B. Ge, M. Kajino, J. Zhu, M. Zhang, H. Liao, and Z. Wang, Why models perform differently on particulate matter over East Asia? – A multi-model intercomparison study for MICS-Asia III,Atmos. Chem. Phys.,20, 7393-7410, doi:10.5194/acp-20-7393-2020, 2020.[PDF]
[124] Wang J., J. Li, J. Ye, J. Zhao, Y. Wu, J. Hu, D. Liu, D. Nie, F. Shen, X. Huang, D. Huang, D. Ji, X. Sun, W. Xu, J. Guo, S. Song, Y. Qin, P. Liu, J. R. Turner, H. C. Lee, S. Hwang, H. Liao, S. T. Martin, Q. Zhang, M. Chen, Y. Sun, X. Ge, and D. J. Jacob, Fast sulfate production in Beijing haze associated with elevated HONO and N2O,Nature Communications,11:2844, doi:10.1038/s41467-020-16683-x, 2020.[PDF]
[123] Fu Y., H. Liao, X. Tian, H. Gao, Z. Cai, and R. Han, Sensitivity of the simulated CO2 concentration to inter-annual variations of its sources and sinks over East Asia,Advances in Climate Change Research,10, 250-263, 2020.[PDF]
[122] Gong C., Y. Lei, Y. Ma, X. Yue*, and H. Liao*, Ozone-vegetation feedback through dry deposition and isoprene emissions in a global chemistry-carbon-climate model,Atmos. Chem. Phys.,20, 3841-3857, doi:10.5194/acp-20-3841-2020, 2020.[PDF]
[121] Lei Y., X. Yue, H. Liao, C. Gong, and L. Zhang, Implementation of Yale Interactive terrestrial Biosphere model version 1.0 into GEOS-Chem version 12.0.0: a tool for biosphere-chemistry interactions,Geoscientific Model Development,13, 1137-1153, doi:10.5194/gmd-13-1137-2020, 2020.[PDF]
[120] Yang Y., S. Lou, H. Wang, P. Wang, and H. Liao, Trends and source apportionment of aerosols in Europe during 1980-2018,Atmos. Chem. Phys.,20, 2579-2590, doi:10.5194/acp-20-2579-2020, 2020.[PDF]
[119] Yue X.*, H. Liao*, H. Wang, T. Zhang, N. Unger, S. Sitch, Z. Feng, and J. Yang, Pathway dependence of ecosystem responses in China to 1.5?°C global warming,Atmos. Chem. Phys.,20, 2353-2366, doi:10.5194/acp-20-2353-2020, 2020.[PDF]
[118] Itahashi S., B. Ge, K. Sato, J. S. Fu, X. Wang, K. Yamaji, T. Nagashima, J. Li, M. Kajino, H. Liao, M. Zhang, Z. Wang, M. Li, J. Kurokawa, G. R. Carmichael, and Z. Wang, MICS-Asia III: Overview of model inter-comparison and evaluation of acid deposition over Asia,Atmos. Chem. Phys.,20, 2667-2693, doi:10.5194/acp=20-2667-2020, 2020.[PDF]
[117] Kong L., X. Tang, J. Zhu, Z. Wang, J. S. Fu, X. Wang, S. Itahashi, K. Yamaji, T. Nagashima, H.-J. Lee, C.-H. Kim, C.-Y. Lin, L. Chen, M. Zhang, Z. Tao, J. Li, M. Kajino, H. Liao, K. Sudo, Y. Wang, Y. Pan, G. Tang, M. Li, Q. Wu, B. Ge, and G. R. Carmichael, Evaluation and uncertainty investigation of the NO2, CO and NH3 modeling over China under the framework of MICS-Asia III,Atmos. Chem. Phys.,20, 181-202, doi:10.5194/acp-20-181-2020, 2020.[PDF]
[116] Gu Y., K. Li, J. Xu, H. Liao, and G. zhou, Observed dependence of surface ozone on temperature in Shanghai, China,Atmos. Environ.,221,117108, doi:10.1016/j.atmosenv.2019.117108, 2020.[PDF]
[115] Gong C., and H. Liao*, A typical weather pattern for the ozone pollution events in North China,Atmos. Chem. Phys.,19, 13725-13740, doi:10.5194/acp-19-13725-2019, 2019.[PDF]
[114] Dang R., and H. Liao*, Radiative forcing and health impact of aerosols and ozone in China as the consequence of clean air actions over 2012-2017,Geophys. Res. Lett.,46, 12511-12519, doi:10.1029/2019GL084605, 2019.[PDF]
[113] Li K., D. J. Jacob*, H. Liao*, J. Zhu, V. Shah, L. Shen, K. Bates, Q. Zhang, S. Zhai, A two-pollutant strategy for improving ozone and particulate matter air quality in China,Nature Geoscience,12, 906-910, doi:10.1038/s41561-019-0464-x, 2019.[PDF]
[112] Li J., T. Nagashima, L. Kong, B. Ge, K. Yamaji, J. S. Fu, X. Wang, Q. Fan, S. Itahashi, H.-J. Lee, C.-H. Kim, C.-Y. Lin, M. Zhang, Z. Tao, M. Kajino, H. Liao, M. Li, J.-H. Woo, J. Kurokawa, Q. Wu, H. Akimoto, G. R. Carmichael, and Z. Wang, Model evaluation and inter-comparison of surface-level ozone and relevant species in East Asia in the context of MICS-Asia phase III Part I: overview,Atmos. Chem. Phys.,19, 12993-13015, doi:10.5194/acp-19-12993-2019, 2019.[PDF]
[111] Chen L., Y. Gao, M. Zhang, J. S. Fu, J. Zhu, H. Liao, J. Li, K. Huang, B. Ge, X. Wang, Y. F. LAM, C. Y. Lin, S. Itahashi, T. Nagashima, M. Kajino, K. Yamaji, Z. Wang, and J. Kurokawa, MICS-Asia III: Mult-model comparison and evaluation of aerosol over East Asia,Atmos. Chem. Phys.,19, 11911-11937, doi:10.5194/acp-19-11911-2019, 2019.[PDF]
[110] Zhai S., D. J. Jacob, X. Wang, L. Shen, K. Li, Y. Zhang, K. Gui, T. Zhao, and H. Liao, Fine particulate matter (PM2.5) trends in China, 2013–2018: contributions from meteorology,Atmos. Chem. Phys.,19, 11031-11041, doi:10.5194/acp-19-11031-2019, 2019.[PDF]
[109] Dang R., and H. Liao*, Severe winter haze days in the Beijing-Tianjin-Hebei region from 1985-2017 and the roles of anthropogenic emissions and meteorology,Atmos. Chem. Phys.,19, 10801-10816, doi:10.5194/acp-19-10801-2019, 2019.[PDF]
[108] Yu Y., S. He, X. Wu, C. Zhang, Y. Yao, H. Liao, Q. Wang, and M. Xie, PM2.5 elements at an urban site in Yangtze River Delta, China: High time-resolved measurement and the application in source apportionment,Environmental Pollution,253, 1089-1099, doi:10.1016/j.envpol.2019.07.096, 2019.[PDF]
[107] Chen L., J. Zhu, H. Liao*, Y. Gao, Y. Qiu, M. Zhang, Z. Liu, N. Li, and Y. Wang, Assessing the formation and evolution mechanisms of severe haze pollution in Beijing-Tianjin-Hebei region by using process analysis,Atmos. Chem. Phys.,19, 10845-10864, doi:10.5194/acp-19-10845-2019, 2019.[PDF]
[106] Gu Y., H. Liao*, J. Xu, and G. Zhou, The chemical effects on the summertime ozone in the upper troposphere and lower stratosphere over the Tibetan Plateau and the South Asian monsoon region,Meteor. and Atmos. Phys.,131, 431-441, doi:10.1007/s00703-018-0581-x, 2019.[PDF]
[105] Zhu J., L. Chen, H. Liao*, and R. Dang, Correlations between PM2.5 and ozone over China and associated underlying reasons,Atmosphere,10(7), 352, doi:10.3390/atmos**, 2019.[PDF]
[104] Liu R., L. Mao, S. C. Liu, Y. Zhang, H. Liao, H. Chen, and Y. Wang, Comment on the paper “Insignificant effect of climate change on winter haze pollution in Beijing” by Shen et al. (2018),Atmos. Chem. Phys.,19, 8563-8568, doi:10.5194/acp-19-8563-2019, 2019.[PDF]
[103] Fu Y., H. Liao*, and Y. Yang, Interannual and decadal changes in tropospheric ozone in China and the associated chemistry-climate interactions: A review,Adv. Atmos. Sci.,36(9), 975-993, doi:10.1007/s00376-019-8216-9, 2019.[PDF]
[102] Feng J., J. Li, H. Liao, and J. Zhu, Simulated coordinated impacts of the NAO and El Ni?o on aerosol concentrations over eastern China,Atmos. Chem. Phys.,19, 10787-10800, doi:10.5194/acp-19-10787-2019, 2019.[PDF]
[101] Shen L., D. J. Jacob, X. Liu, G. Huang, K. Li, and H. Liao, Spatial distribution and temporal trend of ozone pollution in China observed with the OMI satellite instrument, 2005–2017,Atmos. Chem. Phys.,19, 6551-6560, doi:10.5194/acp-19-6551-2019, 2019.[PDF]
[100] Shen L., D. J. Jacob, L. Zhu, Q. Zhang, B. Zheng, M. P. Sulprizio, K. Li, I. De Smedt, G. Gonzalo Abad, H. Cao, T.-M. Fu, and H. Liao, 2005-2016 trends of formaldehyde columns over China observed by satellites: increasing anthropogenic emissions of volatile organic compounds and decreasing agricultural fire emissions,Geophys. Res. Lett.,46,4468-4475, doi:10.1029/2019GL082172, 2019.[PDF]
[99] Wang X., D. J. Jacob, S. D. Eastham, M. P. Sulprizio, L. Zhu, Q. Chen, B. Alexander, T. Sherwen, M. J. Evans, B. H. Lee, J. D. Haskins, F. D. Lopez-Hilfiker, J. A. Thornton, G. L. Huey, and H. Liao, The role of chlorine in tropospheric chemistry,Atmos. Chem. Phys.,19, 3981-4003, doi:10.5194/acp-19-3981-2019, 2019.[PDF]
[98] Li J., H. Liao*, J. Hu, and N. Li, Severe particulate pollution days in China during 2013-2018 and the associated typical weather patterns in Beijing-Tianjin-Hebei and the Yangtze River Delta regions,Environmental Pollution,248, 74-81, doi:10.1016/j.envpol.2019.01.124, 2019.[PDF]
[97] Li X., L. Huang, J. Li, Z. Shi, Y. Wang, H. Zhang, Q. Ying, X. Yu, H. Liao, and J. Hu, Source contributions to poor atmospheric visibility in China,Resources, Conservation & Recycling,143, 167-177, doi:10.1016/j.resconrec.2018.12.029, 2019.[PDF]
[96] Li K., D. J. Jacob*, H. Liao*, L. Shen, Q. Zhang, and K. H. Bates, Anthropogenic drivers of 2013-2017 trends in summer surface ozone in China,PNAS,116(2), 422-427, doi:10.1073/pnas., 2019.[PDF]
[95] Li N., Y. Lu, H. Liao, Q. He, J. Li, and X. Long, WRF-Chem modeling of particulate matter in the Yangtze River Delta region: Source apportionment and its sensitivity to emission changes,PLOS ONE,13(12):e**, doi:10.1371/journal.pone.**, 2018.[PDF]
[94] Feng J., J. Quan, H. Liao, Y. Li, and X. Zhao, An air stagnation index to quantify extreme haze events in northern China,J. Atmos. Sci.,75, 3489-3505, doi:10.1175/JAS-D-17-0354.1, 2018.[PDF]
[93] Qiu F., E. Wang, M. Fan, H. Liao, L. Wang, and Z. Huang, A questionnaire case study of Chinese opinions on the haze pollution and economic growth,Sustainability,10, 1970, doi:10.3390/su**, 2018.[PDF]
[92] Zhang Y., H. Liao*, X. Ding, D. Jo, and K. Li, Implications of RCP emissions on future concentration and direct radiative forcing of secondary organic aerosol over China,Science of the Total Environment,640-641, 1187-1204, doi:10.1016/j.scitotenv.2018.05.274, 2018.[PDF]
[91] Li N., Q. He, J. Greenberg, A. Guenther, J. Cao, J. Wang, H. Liao, and Q. Zhang, Impacts of biogenic emissions on summertime ozone formation in the Guanzhong Basin, China,Atmos. Chem. Phys.,18, 7489-7507, doi:10.5194/acp-18-7489-2018, 2018.[PDF]
[90] Zhu Y., L. Huang, J. Li, Q. Ying, H. Zhang, X. Liu, H. Liao, N. Li, Z. Liu, Y. Mao, H. Fang, and J. Hu, Sources of particulate matter in China: Insights from source apportionment studies published in 1987-2017,Environmental International,115, 343-357, doi:10.1016/j.encint.2018.03.037, 2018.[PDF]
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[81] Tang Y., and H. Liao*, Estimating the emission and concentration of road dust aerosol over China by using the GEOS-Chem model,Atmos. Oceanic Sci. Lett.,10(4), 298-305, doi:10.1080/**.2017.**, 2017.[PDF]
[80] Mao Y., H. Liao, and H. Chen, Impacts of East Asian summer and winter monsoons on interannual variations of mass concentrations and direct radiative forcing of black carbon over eastern China,Atmos. Chem. Phys.,17, 4799-4816, doi:10.5194/acp-17-4799-2017, 2017.[PDF]
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[31] Yue X., H. Liao*, Climatic responses to the shortwave and longwave direct radiative effects of sea salt aerosol in present day and the last glacial maximum,Clim. Dyn., 39(12), 3019-3040, doi:10.1007/s00382-012-1312-5, 2012.[PDF]
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[1] Yung Y. L., Y. Jiang, H. Liao, and M. F. Gerstell, Enhanced UV penetration due to ozone cross-section changes induced by CO2 doubling,Geophys. Res. Lett., 24, 3229-3231, 1997.[PDF]

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[14] 冯琎，廖宏，冬春季东亚气溶胶流出通量年际变率的相关环流异常分析，大气科学，41(2), 251-262，doi:10.3878/j.issn.1006-9895.1607.16146, 2017。【PDF】
[13] 尚晶晶，廖宏，符瑜，杨青，夏季硫酸盐和黑碳气溶胶对云特性的影响，热带气象学报，33(4), 451-466, 2017。【PDF】
[12] 张天航，廖宏，常文渊，刘瑞金，基于国际大气化学-气候模式比较计划（ACCMIP）模式数据>评估中国沙尘气溶胶直接辐射强迫，大气科学，40(6), 1242-1260, doi:10.3878/j.issn.1006-9895.1512.15275，2016。【PDF】
[11] 廖宏，任小波，葛全胜，严中伟，林朝晖，周天军，气候变暖及其对二氧化碳浓度敏感性的新认识——中国科学院战略性先导科技专项“应对气候变化的碳收支认证及相关问题”之气候敏感性任务群研究进展，中国科学院院刊，31(1), 134-141, doi:10.16418/j.issn.1000-3045.2016.01.015, 2016。【PDF】
[10] 张定媛，廖宏，大气甲烷的源和汇及其浓度的观测模拟研究进展，气象科技进展，5(1), 40-47, doi:10.3969/j.issn.2095-1973.2015.01.005, 2015。【PDF】
[9] 廖礼，漏嗣佳，符瑜，常文渊，廖宏，中国东部气溶胶在天气尺度上的辐射强迫和对地面气温的影响，大气科学，39(1), 68-82，doi:10.3878/j.issn.1006-9895.1402.13302, 2015。【PDF】
[8] 张小曳，廖宏，王芬娟, 对IPCC第五次评估报告气溶胶-云对气候变化影响与响应结论的解读, 气候变化研究进展，10(1), 37-39, doi:10.3969/j.issn.1673-1719.2014.01.008, 2014。【PDF】
[7] 廖宏，汤金平, A Train 系列卫星对大气的监测研究计划, 物理，7(39), 488-489, 2010。【PDF】
[6] 漏嗣佳，朱彬，廖宏, 中国地区臭氧前体物对地面臭氧的影响, 大气科学学报，33(4), 451-459, 2010。【PDF】
[5] 廖宏，朱懿旦，全球碳循环与中国百年气候变化，第四纪研究，30(3)，1001-7410，2010。【PDF】
[4] 张兴赢，张鹏，廖宏，胡秀清，李元，张立军，戎志国，邱红，地基傅立叶红外高光谱遥感观测大气成分平台建设及其反演技术研究, 气象，35(1), 9-16，2009。【PDF】
[3] 王自发，庞成明，朱江，安俊岭，韩志伟，廖宏，大气环境数值模拟研究新进展，大气科学，32(4)，987-995，2008。【PDF】
[2] 曾庆存，周广庆，浦一芬，陈文，李荣凤，廖宏，林朝晖，刘辉志，王必正，谢正辉，徐永福，薛峰，曾晓东，张凤，地球系统动力学模式及模拟研究，大气科学, 32(4), 653-690，2008。【PDF】
[1] 董敏，陈隆勋，廖宏，西太平洋暖池区海温异常对冬季环流影响的数值研究，海洋学报，16(3)，39-49， 1994。【PDF】

近期科研项目

在研科研项目：
1. 基金委创新研究群体项目“大气环境与气候相互作用(**)”, 2021.1-2025.12, 项目负责人
2. 国家重点研发计划全球变化及应对重点专项项目“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(2019YFA**)”, 2019.11-2024.10, 项目负责人
3. 基金委重大研究计划集成项目“多尺度大气物理过程与大气复合污染的相互影响机制研究(**)”, 2018.1-2021.12, 项目负责人

完成科研项目：
1. 基金委重大研究计划重点项目“近几十年我国冬季强霾事件的变化特征以及排放和气候的分别贡献(**)", 2016.1-2019.12, 项目负责人
2. 科技部973项目“大气污染物的理化特征及其与气候系统相互作用(2014CB441200)”, 2014.1-2018.12, 项目负责人
3. 基金委面上项目“气象参数对中国气溶胶年际变化的影响(**)", 2015.1-2018.12, 项目负责人
4. 中国科学院战略性先导科技专项项目“我国气溶胶历史变化及气候效应(XDA**)”, 2011.1-2015.12, 项目负责人
5. 基金委创新研究群体项目“地气碳氮交换及其与气候变化的相互作用(**)", 2014.1-2016.12, 项目骨干
6. 基金委创新研究群体项目“地气碳氮交换及其与气候变化的相互作用(**)", 2011.1-2013.12, 项目骨干
7. 国家****科学基金项目“植被、大气化学、气溶胶、气候变化间的相互影响及其环境气候效应(**)”, 2009.1-2012.12, 项目负责人
8. 公益性行业（气象）科研专项“面向IPCC AR5的中国区域气候模拟和预估研究(GYHY)”, 2009.11-2012.10, 项目负责人
9. 基金委重大研究计划重点项目“近百年来我国东部年代际气候转型机理的集成研究(**)”, 2008.1-2011.12, 项目负责人
10. 中国科学院“****项目", 2008-2011, 项目负责人
11. 基金委面上项目“全球气候变化对2000-2050年中国空气品质的影响(**)”, 2008.1-2010.12, 项目负责人
12. 中国科学院知识创新工程重要方向项目“植被生态动力学模式的研制及陆表过程和生物地球化学过程的耦合研究(kzcx2-yw-219)”, 2007-2010, 项目第二负责人
13. 中国科学院知识创新工程重要方向项目“混合气溶胶沉降演变机制及其气候影响(kzcx2-yw-205)”, 2007-2010, 第三课题负责人
14. 科技部973“中国大气气溶胶及其气候效应的研究”项目“气溶胶-云相互作用与间接辐射效应课题(2006CB403706)”的“利用大气环流模式模拟气溶胶间接气候效应”专题, 2006-2010, 专题负责人

迷你公告板:

已毕业学生及去向
姓名
毕业时间
毕业后去向

乐旭
2008年博士毕业
美国哈佛大学工程与应用科学学院

常文渊
2008年博士毕业
中科院大气物理研究所

张丽
2009年博士毕业
美国加州大学洛杉矶分校

张莹
2009年硕士毕业
中国科学院遥感研究所

周彦丽
2010年硕士毕业
河北省张家口市气象局

朱懿旦
2011年硕士毕业
普华永道会计师事务所

朱建磊
2012年博士毕业
天津某部队

符瑜
2012年博士毕业
中科院大气物理研究所

张定媛
2013年博士毕业
中国气象局

江慧
2013年博士毕业
中国气象局

穆青
2014年硕士毕业
德国马克思-普朗克研究所

廖礼
2014年博士毕业
中科院大气物理研究所

杨洋
2014年博士毕业
美国加州大学圣迭戈分校

漏嗣佳
2014年博士毕业
美国加州大学圣迭戈分校

Zeeshaan
2015年博士毕业
沙特阿拉伯 King Abdullah University of Science and Technology

张天航
2016年博士毕业
中国气象局环境气象中心

冯琎
2016年博士毕业
中国气象局北京城市气象研究所

谷怡萱
2016年博士毕业
上海气象局长三角环境气象预报预警中心

尚晶晶
2016年博士毕业
中科三清科技公司

朱佳
2017年博士毕业
南京信息工程大学气候与环境治理研究院

邱雨露
2017年博士毕业
北京市气象局

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2017年博士毕业
北京市气象局

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美国哈佛大学工程与应用科学学院

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天津市气象局

张予
2018年博士毕业
中科院大气物理研究所

李建东
2019年博士毕业
南京信息工程大学

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