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基本概況：

美國哈佛大學博士學位（大氣化學方向）。2019年12月加入南方科技大學，現(xiàn)任環(huán)境科學與工程學院長聘副教授（研究員）。研究聚焦衛(wèi)星遙感、模式模擬、溫室氣體、數(shù)據(jù)同化、海氣交換，發(fā)表SCI 期刊論文100余篇，被引4500余次，h-index 31。在AGU Fall Meeting、Aura衛(wèi)星科學會議、TEMPO衛(wèi)星科學會議等國際學術(shù)會議上做口頭報告20余次。主持參與多項國家省市級基礎(chǔ)研究項目，參與美國國家航空航天局（NASA）、美國國家海洋和大氣管理局（NOAA）、美國國家科學基金會（NSF）的基礎(chǔ)研究8項。OMI、OMPS、TEMPO、GEMS、高分2號等多個衛(wèi)星科學團隊成員。入選生態(tài)環(huán)境部《關(guān)于消耗臭氧層物質(zhì)的蒙特利爾議定書》中國履約專家組、深圳市海外高層次人才團隊、深圳市海外高層次人才計劃。

研究小組最新信息請訪問：https://www.acmrsg.org

工作經(jīng)歷（包括現(xiàn)在的任職）：

1. 2025.06至今 南方科技大學 長聘副教授（研究員）

2. 2019.12至2025.05 南方科技大學 助理教授（副研究員）

3. 2019.08至2019.12 哈佛-史密松天體物理中心 博士后研究員

4. 2017.01至2019.07 哈佛大學 博士后

教育背景：

1. 2016.12 博士 工程科學 哈佛大學

2. 2011.07 碩士 環(huán)境科學 北京大學

3. 2008.06 本科 環(huán)境科學 南開大學

獲獎及榮譽：

1. 2023、2024 國際大氣環(huán)境遙感學會最佳口頭報告

2. 2023 中國遙感大會“大會青年優(yōu)秀論文”

3. 2020美國氣象學會特別貢獻獎

4. 2019 Atmospheric Pollution Research突出審稿人

5. 2018 NASA、美國內(nèi)政部 William T. Pecora團隊獎

6. 2017 Atmospheric Environment杰出審稿人

7. 2015 NASA團隊成就獎

8. 2013 哈佛大學杰出教學認證

9. 2008 南開大學優(yōu)秀畢業(yè)生

研究方向：

1. 大氣化學

2. 痕量氣體遙感

3. 數(shù)據(jù)同化

4. 空氣質(zhì)量

5. 大氣-地面-海洋交互作用

6. 溫室氣體

代表性科研項目：

在研科研項目：

1. 中國地區(qū)人為源非甲烷揮發(fā)性有機物日間逐時高分辨率衛(wèi)星遙感監(jiān)測，國家自然科學基金面上項目（42375090），2024.01-2027.12，項目負責人

2. 大氣活性含碳成分環(huán)境與輻射效應(yīng)模擬項目課題5：大氣活性含碳成分環(huán)境與輻射效應(yīng)模擬，國家重點研發(fā)計劃項目（2023YFC3706205），2023.12-2027.11，項目參與人

3. 氣候、環(huán)境、健康和社會經(jīng)濟協(xié)同增效的碳中和路徑研究項目課題1：全球高分辨率溫室氣體及短壽命污染物排放核算體系構(gòu)建，國家重點研發(fā)計劃項目（2023YFE0112901），2023.12-2027.11，項目參與人

4. 深圳市城市環(huán)境健康風險精準測量與預(yù)警技術(shù)重點實驗室，深圳市科技計劃項目（ZDSYS20220606100604008），2023.03-2025.03，項目參與人

5. 城市大氣環(huán)境高時空分辨監(jiān)測與健康預(yù)警平臺，深圳市科技計劃項目（KQTD20210811090048025），2022.10-2027.09，項目核心成員

6. 深圳市含氟溫室氣體監(jiān)測與排放通量反演，深圳市科技計劃項目（JCYJ20220530115404009），2022.10-2025.10，項目負責人

7. 基于多源立體數(shù)據(jù)同化的粵港澳大灣區(qū)臭氧模擬改進研究，深圳市科技計劃項目（JCYJ20210324104604012），2021.10-2025.10，項目負責人

8. 船舶排放大氣污染物的管控關(guān)鍵技術(shù)研究及應(yīng)用示范，廣東省重點領(lǐng)域研發(fā)計劃項目（2020B1111360001），2021.01-2025.01，項目參與人

已完成科研項目：

1. 基于衛(wèi)星遙感對粵港澳大灣區(qū)地面臭氧污染的高分辨率監(jiān)測與預(yù)報預(yù)警，廣東省基礎(chǔ)與應(yīng)用基礎(chǔ)研究基金項目（2021A1515110713），2021-10-2024.09，項目負責人

2. 碳中和背景下大氣污染及人群健康風險協(xié)同管理創(chuàng)新團隊，廣東省普通高校創(chuàng)新團隊項目（2021KCXTD004），2021.09-2024.09，項目參與人

3. 大灣區(qū)濱海大氣環(huán)境與氣候背景站，廣東省科技計劃項目（2021B1212050024），2021.07-2024.06，項目參與人

4. 海-陸大氣物理化學相互作用及其對粵港澳大灣區(qū)空氣質(zhì)量的影響研究，廣東省基礎(chǔ)與應(yīng)用基礎(chǔ)研究基金項目（2020B1515130003），2020.10-2024.09，項目參與人

5. 基于衛(wèi)星遙感的粵港澳大灣區(qū)空氣質(zhì)量高分辨率監(jiān)測，廣東省高等學校青年創(chuàng)新人才項目（2020KQNCX066），2020.09-2022.09，項目負責人

教學（教學課程和任導師經(jīng)歷/指導的優(yōu)秀學生）:

1. 環(huán)境科學研究中的計算與編程（研）https://zhu-group.github.io/ese5023

2. 環(huán)境數(shù)據(jù)分析（本）https://zhu-group.github.io/ese335

3. 成長通識（本）

學術(shù)成果（發(fā)表論著或者論文或者專利）：

代表性論文（*為通訊作者）：

1．Zhang, X., Ye, C., Kim, J., Lee, H., Park, J., Jung, Y., Hong, H., Fu, W., Li, X., Chen, Y., Wu, X., Li, Y., Li, J., Zhang, P., Yan, Z., Zhang, J., Liu, S., and Zhu, L.*(2025). Tropospheric NO2 column over Tibet Plateau according to GEMS: Spatial, seasonal, and diurnal variations, Remote Sensing, 17(10), 1690. https://doi.org/10.3390/rs17101690.

2．Li, J., Chen, Y., Li, Y., Liu, S., An, M., Yao, B., Western, L. M., Rigby, M., Ganesan, A. L., O’Doherty, S., Sheng, J., Krummel, P. B., Yang, H., Yu, H., Chen, L., Shen, H., Ye, J., Wang, C., Yang, X., Fu, T.-M., and Zhu, L.*(2025). Hydrofluorocarbons (HFCs) in Southern China: High-Frequency Observations and Emission Estimates, Environmental Science & Technology Letters, 12(5), 599-606. https://doi.org/10.1021/acs.estlett.5c00219.

3．Chen, Y., Yao, B., An, M., Ding, A., Liu, S., Li, X., Li, Y., O’Doherty, S., Krummel, P. B., Yang, H., Yu, H., Chen, L., Yang, X., Fu, T.-M., Shen, H., Ye, J., Wang, C., and Zhu, L.*(2025). Emissions of Perfluorinated Greenhouse Gases in Southeastern China Derived From High-Frequency In Situ Observations, Geophysical Research Letters, 52(6), e2024GL111393. https://doi.org/10.1029/2024GL111393.

4．Wang, D., Pu, D., De Smedt, I., Zhu, L.*, Yang, X. , Sun, W., Xia, H., Song, Z., Li, X., Li, J., Zhang, A., Feng, X., Chen, Y., Yang, X., Fu, T.-M., and Wang, J.(2025). Evolution of global O3-NOx-VOCs sensitivity before and after the COVID-19 from the ratio of formaldehyde to NO2 from satellites observations, Journal of Environmental Sciences, 156, 102-113. https://doi.org/10.1016/j.jes.2024.07.029.

5．Fu, W., Zhu, L.*, Kwon, H.-A., Park, R. J., Lee, G. T., De Smedt, I., Liu, S., Li, X., Chen, Y., Pu, D., Li, J., Zuo, X., Zhang, P., Li, Y., Yan, Z., Zhang, X., Zhang, J., Wu, X., Shen, H., Ye, J., Wang, C., Fu, T.-M., and Yang, X.(2025). Evaluating GEMS HCHO retrievals with TROPOMI product, Pandora observations, and GEOS-Chem simulations, Earth and Space Science, 12(1), e2024EA003894. https://doi.org/10.1029/2024EA003894.

6．Liu, S., Wei, J., Li, X., Shu, L., Zhang, J., Fu, T.-M., Yang, X., Zhu, L.* (2024). Underappreciated roles of soil nitrogen oxide emissions on global acute health burden. Environment International, 193, 109087. https://doi.org/10.1016/j.envint.2024.109087.

7．Li, X., Zhu, L.*, De Smedt, I., Sun, W., Chen, Y., Shu, L., Wang, D., Liu, S., Pu, D., Li, J., Zuo, X., Fu, W., Li, Y., Zhang, P., Yan, Z., Fu, T.-M., Shen, H., Wang, C., Ye, J., Yang, X. (2024). Global temperature dependency of biogenic HCHO columns observed from space: Interpretation of TROPOMI results using GEOS-Chem model. Journal of Geophysical Research:Atmospheres, 129, e2024JD041784. https://doi.org/10.1029/2024JD041784

8．Li, J., Sheng, J., Zhu, L.*, Yao, B., Wu, J., Pu, D., Shu, L., Liu, S., Li, X., Chen, Y., Zuo, X., Li, Y., Zhang, P., Yan, Z., Shen, H., Ye, J., Wang, C., Yang, X., and Fu, T.-M. (2024). Bayesian inversion of HFC-134a emissions in southern China from a new AGAGE site: results from an observing system simulation experiment. Atmospheric Environment, 334, 120715. https://doi.org/10.1016/j.atmosenv.2024.120715. 

9．Liu, S., Li, X., Wei, J., Shu, L., Fu, T.-M., Yang, X., and Zhu, L.* (2024). Short-term exposure to fine particulate matter and ozone: source impacts and attributable mortalities. Environmental Science and Technology, 58 (26), 11256-11267. https://doi.org/10.1021/acs.est.4c00339.

10．Chen, Y., Yao, B., Wu, J., Yang, H., Ding, A., Liu, S., Li, X., O’Doherty, S., Li, J., Li, Y., Yu, H., Wang, W., Chen, L., Yang, X., Fu, T.-M., Shen, H., Ye, J., Wang, C., and Zhu,L.*(2024). Observations and emission constraints of trichlorofluoromethane (CFC-11) in Southern China: First-year results from a new AGAGE station. Environmental Research Letters, 19 (7), 074043. https://doi.org/10.1088/1748-9326/ad5857.

11．Pu, D., Zhu, L.*, Shen, H., De Smedt, I., Ye, J., Li, J., Shu, L., Wang, D., Li, X., Zuo, X., Yang, X., and Fu, T.-M. (2024). Integrated satellite observations unravel the relationship between urbanization and anthropogenic non-methane volatile organic compound emissions globally. npj Climate and Atmospheric Science, 7, 125. https://doi.org/10.1038/s41612-024-00683-5.

12．Liu, S., Valks, P., Curci, G., Chen, Y., Shu, L., Jin, J., Sun, S., Pu, D., Li, X., Li, J., Zuo, X., Fu, W., Li, Y., Zhang, P., Yang, X., Fu, T.-M, and Zhu, L.* (2024). Satellite NO2 retrieval complicated by aerosol composition over global urban agglomerations: seasonal variations and long-term trends (2001-2018). Environmental Science & Technology, 58(18), 7891-7903. https://doi.org/10.1021/acs.est.3c02111.

13．Liu, S., Shu, L., Zhu, L.*, Song, Y., Sun, W., Chen, Y., Wang, D., Pu, D., Li, X., Sun, S., Li, J., Zuo, X., Fu, W., Yang, X., and Fu, T.-M. (2024). Underappreciated Emission Spikes From Power Plants During Heatwaves Observed From Space: Case Studies in India and China. Earth's Future, 12(12), e2023EF003937. https://doi.org/10.1029/2023EF003937.

14．Zuo, X., Sun, W., De Smedt, I., Li, X., Liu, S., Pu, D., Sun, S., Li, J., Chen, Y., Fu, W., Zhang, P., Li, Y., Yang, X., Fu, T.-M., Shen, H., Ye, J., Wang, C., and Zhu, L.* (2023). Observing Downwind Structures of Urban HCHO Plumes From Space: Implications to Non-Methane Volatile Organic Compound Emissions. Geophysical Research Letters, 50 (24), e2023GL106062. https://doi.org/10.1029/2023GL106062.

15．Chen, Y., Liu, S.*, Zhu, L.*, Seo S., Richter, A., Li, X., Ding, A., Sun, W., Shu, L., Wang, X., Valks, P., Hendrick, F., Koenig, T. K., Volkamer, R., Bai, B., Wang, D., Pu, D., Sun, S., Li, J., Zuo, X., Fu, W., Li, Y., Zhang, P., Yang, X., and Fu, T.-M. (2023). Global Observations of Tropospheric Bromine Monoxide (BrO) Columns From TROPOMI. Journal of Geophysical Research: Atmospheres, 128 (24), e2023JD039091. https://doi.org/10.1029/2023JD039091.

16．Liu, S., Li, X., Li, J., Shu, L., Fu, T.-M., Yang, X., and Zhu, L.* (2023). Observing network effect of shipping emissions from space: A natural experiment in the world's busiest port. PNAS Nexus, 2(11), pgad391. https://doi.org/10.1093/pnasnexus/pgad391.

17．Shu, L., Zhu, L.*, Bak, J., Zoogman, P., Han, H., Liu, S., Li, X., Sun, S., Li, J., Chen, Y., Pu, D., Zuo, X., Fu, W., Yang, X., and Fu, T.-M. (2023). Improving ozone simulations in Asia via multisource data assimilation: results from an observing system simulation experiment with GEMS geostationary satellite observations. Atmospheric Chemistry and Physics, 23 (6), 3731-3748. https://doi.org/10.5194/acp-23-3731-2023.

18．Pu, D., Zhu, L.*, De Smedt, I., Li, X., Sun, W., Wang, D., Liu, S., Li, J., Shu, L., Chen, Y., Sun, S., Zuo, X., Fu, W., Xu, P., Yang, X., and Fu, T.-M. (2022). Response of Anthropogenic Volatile Organic Compound Emissions to Urbanization in Asia Probed With TROPOMI and VIIRS Satellite Observations. Geophysical Research Letters, 49(18), e2022GL099470. https://doi.org/10.1029/2022GL099470.

19．Shu, L., Zhu, L.*, Bak, J., Zoogman, P., Han, H., Long, X., Bai, B., Liu, S., Wang, D., Sun, W., Pu, D., Chen, Y., Li, X., Sun, S., Li, J., Yang, X., Fu, T.-M. (2022). Improved ozone simulation in East Asia via assimilating observations from the first geostationary air-quality monitoring satellite: Insights from an Observing System Simulation Experiment. Atmospheric Environment, 274, 119003. https://doi.org/10.1016/j.atmosenv.2022.119003. 

20．Sun, W., Zhu, L.*, De Smedt, I., Bai, B., Pu, D., Chen, Y., Shu, L., Wang, D., Fu, T.-M., Wang, X., and Yang, Y. (2021). Global Significant Changes in Formaldehyde (HCHO) Columns Observed From Space at the Early Stage of the COVID-19 Pandemic. Geophysical Research Letters, 48(4), 2e020GL091265. https://doi.org/10.1029/2020GL091265. 

21．Zhu, L.*, González Abad, G., Nowlan, C. R., Chan Miller, C., Chance, K., Apel, E. C., DiGangi, J. P., Fried, A., Hanisco, T. F., Hornbrook, R. S., Hu, L., Kaiser, J., Keutsch, F. N., Permar, W., St. Clair, J. M., and Wolfe, G. M. (2020). Validation of satellite formaldehyde (HCHO) retrievals using observations from 12 aircraft campaigns. Atmospheric Chemistry and Physics, 20(20), 12329-12345. https://doi.org/10.5194/acp-20-12329-2020.

22．Zhu, L.*, Jacob, D. J., Eastham, S. D., Sulprizio, M. P., Wang, X., Sherwen, T., Evans, M. J., Chen, Q., Alexander, B., Koenig, T. K., Volkamer, R., Huey, L. G., Le Breton, M., Bannan, T. J., and Percival, C. J. (2019). Effect of sea salt aerosol on tropospheric bromine chemistry. Atmospheric Chemistry and Physics, 19(9), 6497-6507.  https://doi.org/10.5194/acp-19-6497-2019.

23．Zhu, L.*, Mickley, L., J., Jacob, D. J., Marais, E. A., Sheng, J., Hu, L., González Abad, G., and Chance, K.(2017). Long-term (2005–2014) trends in formaldehyde (HCHO) columns across North America as seen by the OMI satellite instrument: Evidence of changing emissions of volatile organic compounds.  Geophysical Research Letters, 44 (13), 7079-7086. https://doi.org/10.1002/2017GL073859.

24．Zhu, L.*, Jacob, D. J., Keutsch, F. N., Mickley, L. J., Scheffe, R., Strum, M., Abad, G. G., Chance, K., Yang, K., Rappengluck, B., Millet, D. B., Baasandorj, M., Jaegle, L., and Shah, V. (2017). Formaldehyde (HCHO) As a Hazardous Air Pollutant: Mapping Surface Air Concentrations from Satellite and Inferring Cancer Risks in the United States. Environmental Science and Technology, 51 (10), 5650-5657. https://doi.org/10.1021/acs.est.7b01356.

25．Zhu, L.*, Jacob, D. J., Kim, P. S., Fisher, J. A., Yu, K., Travis, K. R., Mickley, L. J., Yantosca, R. M., Sulprizio, M. P., De Smedt, I., González Abad, G., Chance, K., Li, C., Ferrare, R., Fried, A., Hair, J. W., Hanisco, T. F., Richter, D., Jo Scarino, A., Walega, J., Weibring, P., and Wolfe, G. M. (2016). Observing atmospheric formaldehyde (HCHO) from space: Validation and intercomparison of six retrievals from four satellites (OMI, GOME2A, GOME2B, OMPS) with SEAC4RS aircraft observations over the southeast US. Atmospheric Chemistry and Physics, 16 (21), 13477-13490. https://doi.org/10.5194/acp-16-13477-2016. 

26．Zhu, L.*, Jacob, D. J., Mickley, L. J., Marais, E. A., Cohan, D. S., Yoshida, Y., Duncan, B. N., Gonza?lez Abad, G., and Chance, K. V. (2014). Anthropogenic emissions of highly reactive volatile organic compounds in eastern Texas inferred from oversampling of satellite (OMI) measurements of HCHO columns. Environmental Research Letters, 9 (11), 114004. https://doi.org/10.1088/1748-9326/9/11/114004.

27．Zhu, L., Huang, X., Shi, H., Cai, X. H., and Song, Y. (2011). Transport pathways and potential sources of PM10 in Beijing. Atmospheric Environment, 45 (3), 594-604. https://doi.org/10.1016/j.atmosenv.2010.10.040.

28．李娟, 朱雷*, 陳雨陽, 李亞莉, 楊紅龍, 于海波 &  陳麗曲.(2025). 我國東南部地區(qū)HFC-227ea、HFC-245fa以及HFC-365mfc排放估算. 安全與環(huán)境工程, 1-9. doi:10.13578/j.cnki.issn.1671-1556.20250209.