全网十大靠谱网投

李晨曦(Li Chenxi)
长聘教轨助理教授
办公室:环境科学楼213
邮箱:chenxi20@sjtu.edu.cn

研究方向

气溶胶系统动力学,气溶胶的初始形成与增长过程, 颗粒物分析仪器与方法

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 至今,?全网十大靠谱网投,助理教授


代表性论著


研究成果


  1. 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

  2. Li, C.; Krohn, J. ; Lippe, M. and Signorell, R.,How volatile components catalyze vapor nucleation,Sci. Adv., ,2020, 7(3), eabd9954
  3. 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.
  4. 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
  5. Li, C; Signorell, R., Understanding Vapor Nucleation on the Molecular Level: A Review, J. Aerosol Sci., 2020, in press.
  6. Li, C.; Cai, R, Tutorial: The Discrete-sectional Method to Simulate an Evolving Aerosol, J. Aerosol Sci., 2020, 150,105615
  7. 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.
  8. 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
  9. 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.
  10. 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.
  11. 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.
  12. Li, C.; Hogan, J. C. J., Vapor specific extents of uptake by nanometer scale charged particles. Aerosol Sci. Technol. 2017, 51 (5), 653-664.
  13. 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.
  14. 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.
  15. Ahonen, L.; Li, C.; ?Kube?ka, J.; Iyer, S.; ?Vehkam?ki, H.; ?Pet?j?, 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.
  16. 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.
  17. 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.




荣获奖项

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