Name：    Li Nan

Sex：        Male

School of Environmental Science and Engineering, Associate Professor

 

Office：  C112, Department Building 1

Email：    linan@nuist.edu.cn

Research Interests：   Atmospheric Chemistry modeling

 

Education：

2005-2009，Nanjing University，Atmosphere，Bachelor

2009-2014，University of Chinese Academy of Sciences，Environment Science，PhD

2009-2014，Peking University，Atmosphere，Joint PhD

 

Work Experience：

2009，HongKong Polytechnic University，Research Assistant

2014-2016，National Taiwan University，Postdoctoral Researcher

2016-present，Nanjing Unviersity of Information Science and Technology，Associate Professor

 

Honors & Awards:

2023，"New Atmospheric Chemistry Tutorial" was selected as the "14th Five-Year Plan" planning textbook by Science Press

2023，selected for the "Aerosol Science and Technology Innovation Award" of the Chinese Society of Particuology

2023，won the "Geographic Information Technology Progress Award" from the China Geographic Information Industry Association

2023，"Atmospheric Chemistry" was selected as a national first-class undergraduate course

2023，selected as "Outstanding Youth of Jiangsu Science and Technology Think Tank"

2021，won the "Jiangsu Province Environmental Protection Science and Technology Award"

2021，"Atmospheric Chemistry" was selected as a first-class undergraduate course in Jiangsu Province

Academic

Young Director of China Particle Society
Jiangsu Province “1+13” Air Pollution Prevention and Control Support Team
Young editorial board member of Journal of Meteorology and Environment
Guest Editor of "Atmosphere"

Books:

[3] "New Atmospheric Chemistry Tutorial", Science Press, 2023, editor-in-chief
[2] "Basics of Chemistry of Air Pollution", Meteorological Press, 2022, participating author
[1] "PM2.5 and the Environment", Science Press, 2014, participating author

Publications：

[36] 徐洋，汤克勤，魏崇，李楠^#, 2015-2020年我国PM2.5改善与气态前体物减排响应分析, 环境科学学报, 2023.

[35] 朱书涵，陆一磊，王松伟，刘弯弯，汤克勤，李楠^#, 2020-2025年我国水泥行业二氧化碳排放特征及减排潜力研究, 环境科学学报, 2023.

[34] Tang, C.Q., Shi, C., Letu, H.S., Ma, R., Yoshida, M., Kikuchi, M., Xu, J., Li, N., Zhao, M.J., Chen, L., Shi, G.Y., Evaluation and uncertainty analysis of Himawari-8 hourly aerosol product version 3.1 and its influence on surface solar radiation before and during the COVID-19 outbreak, Sci. Total Environ., 892, 164456, 2023.

[33] 李楠^#, 刘弯弯, 朱书涵, 邢晓雯, 汤克勤, 王松伟, 白露, 湖南省工业领域碳排放与空气质量改善协同, 环境科学, 2023.

[32] 周嘉仪, 李楠^#, 冯伟航, 汤克勤, 朱书涵, 朱文达, 我国道路源二氧化碳排放估算及未来情景预测, 环境科学学报, 2023.

[31] Li J., Hao, X., Liao^# H., Dai, H., Li, N., Gu, Y., Dang, R., Li, B., Wei, Y., Air pollution mitigation in North China through flexible heating policies, Environ. Res. Lett., 18, 024026, 2023.

[30] 王松伟, 汤克勤, 张皓然, 刘弯弯, 白露, 李楠^#, 江苏省二氧化碳减排政策对空气质量改善增益, 环境科学. 44, 10, 2023.

[29] Chang, F.Y., Li, J.D., Li, N.^#, Liao, H., Stratospheric intrusion may aggravate widespread ozone pollution through both vertical and horizontal advections in eastern China during summer. Front. Environ. Sci., 10, 1115746, 2023.

[28] Li, N., Zhang, H.R., Zhu, S.H., Liao, H.^#, Hu, J.L., Tang, K.,Q., Feng, W.H., Zhang, R.H., Shi, C., Xu, H.M., Chen, L., Li, J.D., Secondary PM2.5 dominates aerosol pollution in the Yangtze River Delta region: Environmental and health effects of the Clean air Plan. Environ. Int., 171, 107725, 2023.

[27] Zhou, J.Y., Li, N., Wang, X.R., Xu, L., Zhou, H., Effects of the preparation method of Cu-SAPO-34 catalysts in de-NOx SCR by propylene. Journal of Environmental Chimical Enginerring, 10, 108160, 2022.

[26] Li J.D., Hao, X., Liao, H., Yue, X., Li, H., Long, X., and Li, N., Predominant type of dust storms that influence air quality over northern China and future projections, Earth's Future, 10, e2022EF002694, 2022.

[25] Zhang, H.R., Li, N.^#, Tang, K.Q., Liao, H., Shi, C., Huang, C., Wang, H.L., Guo, S., Hu, M., Ge, X.L., Chen, M.D., Liu, Z.X., Yu, H., Hu, J.L., Estimation of secondary PM2.5 in China and the United States using a multi-tracer approach,  Atmos. Chem. Phys., 22, 5495-5514, 2022.

[24] 张茹涵, 张皓然, 冯伟航, 汤克勤, 马亚平, 王红丽, 黄成, 胡建林, 张宏亮, 李楠^#. 硫酸盐非均相机制对颗粒物污染的影响: 上海典型污染事件的WRF-Chem模拟. 环境科学, 43, 5, 2022.

[23] Mao Y., S. Yu, Y. Shang, H. Liao, and N. Li, Response of summer ozone to precursor emission controls in the Yangtze River Delta region, Front. Environ. Sci., 10, 864897, 2022.

[22] Tang, K.Q., Zhang, H.R., Feng, W.H., Liao, H., Hu, J.L., Li, N.^#: Increasing but Variable Trend of Surface Ozone in the Yangtze River Delta Region of China. Front. Environ. Sci., 10, 836191, 2022.

[21] Zhang, H.R., Tang, K.Q., Feng, W.H., Yan, X.T., Liao, H., Li, N.^#: Impact of Short-Term Emission Control Measures on Air Quality in Nanjing During the Jiangsu Development Summit. Front. Environ. Sci., 9:693513, 2021.

[20] Li, N.^#, Tang, Kq., Wang, Y., Wang. J., Feng, Wh., Zhang, Hr., Liao, H., Hu, Jl., Long, X., Shi, C., Su, Xl., et al.: Is the efficacy of satellite-based inversion of SO2 emission model dependent?, Enviorn.Res.Lett.,16(2021)035018, 2021.

[19] Li, Y., Xu, H.^#, He, K., Wang, J., Ning, Z., Wang, Q., Li, N., et al.: Reactive oxygen species induced by perel combustion in rural Guanzhong Basin, northwestern China. Airsonal exposure to fineparticulate matter emitted from solid fuel combustion in rural Guanzhong Basin, northwestern China. Air Qual. Atmos. Health, 2019.

[18] Chen, L., Zhu, J., Liao, H.^#, Gao, Y., Qiu, Y., Zhang, M., Liu, Z., Li, N., Wang, Y.: Assessing the formation and evolution mechanisms of severe haze pollution in the Beijing–Tianjin–Hebei region using process analysis, Atmos. Chem. Phys., 19, 16, 10845-10864, 2019.

[17] Li, J., Liao, H. ^#, Hu, J., Li, N.: 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, Environ. Pollut., 248, 74-81, 2019.

[16] Wang, Q. ^#, Liu, S., Li, N., Dai, W., Wu, Y., Tian, J., et al.: Impacts of short-term mitigation measures on PM2.5 and radiative effects: a case study at a regional background site near Beijing, China, Atmos. Chem. Phys., 19, 1881-1899, 2019.

[15] 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, 42(06)，107-114，2018.

[14] Li, N. ^#, Lu, Y.L., Liao, H., He, Q.Y., Li, J.Y., Long, X.: WRF-Chem modeling of particulate matter in the Yangtze River Delta region: Source apportionment and its sensitivity to emission changes. Plos One, 13, 12, e0208944, 2018.

[13] Li, N. ^#, He, Q.Y., Greenberg, J., Guenther, A., Li, J.Y., Cao, J.J., Wang, J., Liao, H., Wang, Q.Y., Zhang, Q.: Impacts of Biogenic and Anthropogenic Emissions on Summertime Ozone Formation in the Guanzhong Basin, China, Atmos. Chem. Phys., 18, 1-19, 2018.

[12] Zhu, Y., Huang, L., Li, J., Ying, Q., Zhang, H., Liu, X., Liao, H. ^#, Li, N., Liu, Z., Mao, Y., Fang, H., and Hu, J.L.: Sources of particulate matter in China: Insights from source apportionment studies published in 1987-2017, Environ. Int., 115, 343-357, 2018.

[11] Li, N., He, Q.Y., Tie, X.X. ^#, Cao, J.J., Liu, S.X., Wang, Q.Y., Li, G.H., Huang, R.J., Zhang, Q.: Quantifying sources of elemental carbon over the Guanzhong Basin of China: A consistent network of measurements and WRF-Chem modeling, Environ. Pollut., 214, 86-93, 2016.

[10] Li, N., Chen, J.-P. ^#, Tsai, I.-C., He, Q.Y., Lin, Y.-C., Chi, S.-Y., Fu, T.-M.: Potential impacts of electric vehicle on air quality in Taiwan, Sci. Total Environ., 566-567, 2016.

[9] Li, N., Long, X., Tie, X.X. ^#, Cao, J.J., Huang, R.J., Zhang, R., Feng, T., Liu, S.X., and Li, G.H.: Urban dust in the Guanzhong basin of China, part II: A case study of urban dust pollution using the WRF-Dust model, Sci. Total Environ., 541, 1614-1624, 2016.

[8] Long, X., Tie, X.X. ^#, Cao, J.J., Huang, R.J., Feng, T., Li, N., Zhao, Y.S., Tian, J., Li, G.H., Zhang, Q.: Impact of crop field burning and mountains on heavy haze in the North China Plain: A case study. Atmos. Chem. Phys., 15(16), 9675-9691, 2016.

[7] Long, X., Li, N., Tie, X.X. ^#, Cao, J.J., Zhao, S.Y., Huang, R.J., Zhao, M.D., Li, G.H., and Feng, T.: Urban dust in the Guanzhong Basin of China, part I: A regional distribution of dust sources retrieved using satellite data, Sci. Total Environ., 541, 1603-1613, 2016.

[6] Tsai, I.-C., Chen, J.-P. ^#, Lung, C. S.-C., Li, N., Chen, W.-N., Fu, T.-M., Chang, C.-C., and Hwang, G.-D.: Sources and formation pathways of organic aerosol in a subtropical metropolis during summer, Atmos. Environ., 117, 51-60, 2015.

[5] Wang, Q.Y., Huang, R.J., Cao, J.J. ^#, Tie, X.X., Ni, H.Y., Zhou, Y.Q., Han, Y.M., Hu, T.F., Zhu, C.S., Feng, T., Li, N., and Li, J.D.: Black carbon aerosol in winter northeastern Qinghai–Tibetan Plateau, China: the source, mixing state and optical property, Atmos. Chem. Phys., 15, 13059-13069, 2015.

[4] Zhao, S.Y., Tie, X.X. ^#, Cao, J.J., Li, N., Li, G.H., Zhang, Q., Zhu, C.S., Long, X., Li, J.D., Feng, T., and Su, X.L.: Seasonal variation and four-year trend of black carbon in the Mid-west China: The analysis of the ambient measurement and WRF-Chem modeling, Atmos. Environ., 123, 430-439, 2015.

[3] Li, N., Fu, T.-M. ^#, Cao, J.J., Lee, S.C., Huang, X.-F., He, L.-Y., Ho, K.-F., Fu, J.S., and Lam, Y.-F.: Sources of secondary organic aerosols in the Pearl River Delta region in fall: Contributions from the aqueous reactive uptake of dicarbonyls, Atmos. Environ., 76, 200-207, 2013.

[2] Wang, Q.Y., Cao, J.J. ^#, Tao, J., Li, N., Su, X.L., Chen, L.W.A., Wang, P., Shen, Z.X., Liu, S.X., and Dai, W.T.: Long-Term Trends in Visibility and at Chengdu, China, Plos One, 7(8), e68894, 2013.

[1] Xu, H.M., Tao, J., Ho, S.S.H., Ho, K.F., Cao, J.J. ^#, Li, N., Chow, J.C., Wang, G.H., Han, Y.M., Zhang, R.J., Watson, J.G., and Zhang, J.Q.: Characteristics of fine particulate non-polar organic compounds in Guangzhou during the 16th Asian Games: Effectiveness of air pollution controls, Atmos. Environ., 76, 94-101, 2013.