李晨曦(Li Chenxi)
长聘教轨副教授
办公室:绿色环境楼10-23
邮箱:chenxi20@sjtu.edu.cn

研究方向

气溶胶系统动力学与数值模拟,气溶胶的初始形成与增长过程, 颗粒物分析仪器与方法

  • 课题组招收2024级硕士研究生,欢迎对以上方向感兴趣的同学申报。也欢迎本科生来做毕业设计或参与科研项目。
  • 大气科学团队招收博士后一名(李晨曦、赵岳指导),从事大气气溶胶相关研究工作,欢迎有意者来邮咨询。

个人简历

2008.8-2012.7,清华大学工程物理系

2012.7-2014.7,参加美丽中国支教项目,云南临沧幸福中学

2014.8-2018.11,美国明尼苏达大学双城分校,机械学院博士

2019.1-2020.4,瑞士苏黎士联邦理工学院化学与应用生物学系,博士后

2020.4 至2022.12, 上海交通大学环境科学与工程学院,助理教授

2022.12 至今, 上海交通大学环境科学与工程学院,长聘教轨副教授

代表性论著


研究成果

  1. Characteristics, Origins, and Atmospheric Processes of Amines in Fine Aerosol Particles in Winter in China, Tang Liu, Yu Xu, Qi‐Bin Sun, Hong‐Wei Xiao, Ren‐Guo Zhu, Chen‐Xi Li, Zi‐Yue Li, Kai‐Qi Zhang, Cheng‐Xing Sun, Hua‐Yun Xiao, Journal of Geophysical Research: Atmospheres, 2023

  2. Comprehensive simulations of new particle formation events in Beijing with a cluster dynamics–multicomponent sectional model,C Li, Y Li, X Li, et al., Atmospheric Chemistry and Physics, 2023

  3. S. Feusi, J. Krohn, C. Li and R. Signorell,  Mutual independence of water and n-nonane nucleation at low temperatures, The Journal of Chemical Physics 2023,DOI: 10.1063/5.0138628

  4. C. Li, Y. Zhao, Z. Li, L. Liu, X. Zhang, J. Zheng, et al., The dependence of new particle formation rates on the interaction between cluster growth, evaporation, and condensation sink, Environmental Science: Atmospheres 2023 Vol. 3 Issue 1 Pages 168-181

  5. Y. Zhao, M. Yao, Y. Wang, Z. Li, S. Wang, C. Li, et al., Acylperoxy Radicals as Key Intermediates in the Formation of Dimeric Compounds in α-Pinene Secondary Organic Aerosol, Environmental Science & Technology 2022 Vol. 56 Issue 20 Pages 14249-14261

  6. Z. Liu, Y. Zhao, M. Yao, S. Wang, Z. Li, C. Li, et al., Persistence of Monoterpene-Derived Organic Peroxides in the Atmospheric Aqueous Phase, ACS Earth and Space Chemistry 2022 Vol. 6 Issue 9 Pages 2226-2235

  7. Zang, H., Zhao, Y., Huo, J., Zhao, Q., Fu, Q., Duan, Y., Shao, J., Huang, C., An, J., Xue, L., Li, Z., Li, C., Xiao, H., High atmospheric oxidation capacity drives wintertime nitrate pollution in the eastern Yangtze River Delta of China, Atmos. Chem. Phys. 2022 Vol. 22 Issue 7 Pages 4355-4374

  8. M. Yao, Z. Li, C. Li, H. Xiao, S. Wang, A. W. H. Chan, et al.,Isomer-Resolved Reactivity of Organic Peroxides in Monoterpene-Derived Secondary Organic Aerosol,Environmental Science & Technology 2022 Vol. 56 Issue 8 Pages 4882-4893

  9. Dingilian K., Lippe M., Kubečka J., Krohn J., Li C., Halonen R., Keshavarz F., Reischl B., Kurtén T., Vehkamäki H., Signorell R., and Wyslouzil B. E. New Particle Formation from the Vapor Phase: From Barrier Controlled Nucleation to the Collisional Limit, Journal of Physical Chemistry Letters, 2021 Vol. 12 Issue 19 Pages 4593-4599.

  10. Wang Y.; Zhao, Y; Li, Z; Li, C.; Yan, N. and Xiao, H, Importance of Hydroxyl Radical Chemistry in Isoprene Suppression of Particle Formation from α‑Pinene Ozonolysis, ACS Earth Space Chem., 2021

  11. Li, C.; Krohn, J. ; Lippe, M. and Signorell, R.,How volatile components catalyze vapor nucleation,Sci. Adv., ,2020, 7(3), eabd9954
  12. Cai, R.; Li, C.; He, X.; Deng, C.; Lu Y.; Yin R.; Yan C.; Wang L.; Jiang J.; Kulmala M. and Kangasluoma J., Impacts of coagulation on the appearance time method for sub-3 nm particle growth rate evaluation and their corrections, Atmos. Chem. Phys., https://doi.org/10.5194/acp-2020-398, accepted, 2020.
  13. Singh N.; Kroells M.; Li C.; Ching E.; Ihme M.; Hogan C. J.; Schwartzentruber T., A General Drag Coefficient for Flow over a Sphere, preprint
  14. Li, C; Signorell, R., Understanding Vapor Nucleation on the Molecular Level: A Review, J. Aerosol Sci., 2020, in press.
  15. Li, C.; Cai, R, Tutorial: The Discrete-sectional Method to Simulate an Evolving Aerosol, J. Aerosol Sci., 2020, 150,105615
  16. Li, C.;  Lee, A. L.; Chen, X.;  Pomerantz, W. C.K.;  Haynes, C. L.; Hogan, C. J.,Multidimensional Nanoparticle Characterization through Ion Mobility-Mass Spectrometry. Anal. Chem. 2020, 92 (3), 2503-2510.
  17. Li, C.;  Lippe, M.;  Krohn, J.; Signorell, R., Extraction of monomer-cluster association rate constants from water nucleation data measured at extreme supersaturations. J. Chem. Phys. 2019, 151 (9), 094305. Editor's Pick
  18. Li, C.; Hogan Jr, C. J., Direct observation of C60− nano-ion gas phase ozonation via ion mobility-mass spectrometry. Phys. Chem. Chem. Phys. 2019, 21 (20), 10470-10476.
  19. Li, C.;  Singh, N.;  Andrews, A.; Olson, B. A.;  Schwartzentruber, T. E.; Hogan, C. J., Mass, momentum, and energy transfer in supersonic aerosol deposition processes. Int. J. Heat Mass Transfer 2019, 129, 1161-1171.
  20. Li, C.; McMurry, P. H., Errors in nanoparticle growth rates inferred from measurements in chemically reacting aerosol systems. Atmos. Chem. Phys. 2018, 18 (12), 8979-8993.
  21. Li, C.; Hogan, J. C. J., Vapor specific extents of uptake by nanometer scale charged particles. Aerosol Sci. Technol. 2017, 51 (5), 653-664.
  22. Krohn, J.; Martina, L.; Li, C; Signorell, R.; Carbon Dioxide and Propane Nucleation:The Emergence of a Nucleation Barrier, Phys. Chem. Chem. Phys., 2020, 22, 15986-15998.
  23. Ghosh, S.;  Chen, X.; Li, C.;  Olson, B. A.; Hogan Jr, C. J., Fragmentation and film growth in supersonic nanoaggregate aerosol deposition. AlChE J. 2019, n/a (n/a), e16874.
  24. Ahonen, L.; Li, C.;  Kubečka, J.; Iyer, S.;  Vehkamäki, H.;  Petäjä, T.; Kulmala, M.; Hogan Jr, C. J., Ion Mobility-Mass Spectrometry of Iodine Pentoxide–Iodic Acid Hybrid Cluster Anions in Dry and Humidified Atmospheres. The Journal of Physical Chemistry Letters 2019, 10 (8), 1935-1941.
  25. Kürten, A.; Li, C.;  , New particle formation in the sulfuric acid–dimethylamine–water system: reevaluation of CLOUD chamber measurements and comparison to an aerosol nucleation and growth model. Atmos. Chem. Phys. 2018, 18 (2), 845-863.
  26. McMurry, P. H. & Li, C., The dynamic behavior of nucleating aerosols in constant reaction rate systems: Dimensional analysis and generic numerical solutions. Aerosol Sci. Technol. 2017, 51 (9), 1057-1070.

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