| Atmospheric new particle formation from sulfuric acid and amines in a Chinese megacity L Yao, O Garmash, F Bianchi, J Zheng, C Yan, J Kontkanen, H Junninen, ... Science 361 (6399), 278-281, 2018 | 493 | 2018 |
| Rapid growth of new atmospheric particles by nitric acid and ammonia condensation M Wang, W Kong, R Marten, XC He, D Chen, J Pfeifer, A Heitto, ... Nature 581 (7807), 184-189, 2020 | 205 | 2020 |
| Multicomponent new particle formation from sulfuric acid, ammonia, and biogenic vapors K Lehtipalo, C Yan, L Dada, F Bianchi, M Xiao, R Wagner, D Stolzenburg, ... Science advances 4 (12), eaau5363, 2018 | 200 | 2018 |
| Strong atmospheric new particle formation in winter in urban Shanghai, China S Xiao, MY Wang, L Yao, M Kulmala, B Zhou, X Yang, JM Chen, DF Wang, ... Atmospheric Chemistry and Physics 15 (4), 1769-1781, 2015 | 163 | 2015 |
| Rapid growth of organic aerosol nanoparticles over a wide tropospheric temperature range D Stolzenburg, L Fischer, AL Vogel, M Heinritzi, M Schervish, M Simon, ... Proceedings of the National Academy of Sciences 115 (37), 9122-9127, 2018 | 148 | 2018 |
| Role of iodine oxoacids in atmospheric aerosol nucleation XC He, YJ Tham, L Dada, M Wang, H Finkenzeller, D Stolzenburg, S Iyer, ... Science 371 (6529), 589-595, 2021 | 119 | 2021 |
| Detection of atmospheric gaseous amines and amides by a high-resolution time-of-flight chemical ionization mass spectrometer with protonated ethanol reagent ions L Yao, MY Wang, XK Wang, YJ Liu, HF Chen, J Zheng, W Nie, AJ Ding, ... Atmospheric Chemistry and Physics 16 (22), 14527-14543, 2016 | 108 | 2016 |
| Molecular characterization of atmospheric particulate organosulfates in three megacities at the middle and lower reaches of the Yangtze River XK Wang, S Rossignol, Y Ma, L Yao, MY Wang, JM Chen, C George, ... Atmospheric Chemistry and Physics 16 (4), 2285-2298, 2016 | 92 | 2016 |
| Molecular understanding of new-particle formation from α-pinene between −50 and +25 °C M Simon, L Dada, M Heinritzi, W Scholz, D Stolzenburg, L Fischer, ... Atmospheric Chemistry and Physics 20 (15), 9183-9207, 2020 | 81 | 2020 |
| Enhanced growth rate of atmospheric particles from sulfuric acid D Stolzenburg, M Simon, A Ranjithkumar, A Kürten, K Lehtipalo, ... Atmospheric Chemistry and Physics 20 (12), 7359-7372, 2020 | 73 | 2020 |
| Photo-oxidation of aromatic hydrocarbons produces low-volatility organic compounds M Wang, D Chen, M Xiao, Q Ye, D Stolzenburg, V Hofbauer, P Ye, ... Environmental science & technology 54 (13), 7911-7921, 2020 | 71 | 2020 |
| Secondary organic aerosol formed by condensing anthropogenic vapours over China’s megacities W Nie, C Yan, DD Huang, Z Wang, Y Liu, X Qiao, Y Guo, L Tian, P Zheng, ... Nature Geoscience 15 (4), 255-261, 2022 | 69 | 2022 |
| Molecular understanding of the suppression of new-particle formation by isoprene M Heinritzi, L Dada, M Simon, D Stolzenburg, AC Wagner, L Fischer, ... Atmospheric Chemistry and Physics 20 (20), 11809-11821, 2020 | 61 | 2020 |
| Reactions of atmospheric particulate stabilized Criegee intermediates lead to high-molecular-weight aerosol components MY Wang, L Yao, J Zheng, XK Wang, JM Chen, X Yang, DR Worsnop, ... Environmental science & technology 50 (11), 5702-5710, 2016 | 61 | 2016 |
| The driving factors of new particle formation and growth in the polluted boundary layer M Xiao, CR Hoyle, L Dada, D Stolzenburg, A Kürten, M Wang, ... Atmospheric Chemistry and Physics Discussions 2021, 1-28, 2021 | 51 | 2021 |
| Molecular composition and volatility of nucleated particles from α-pinene oxidation between− 50 C and+ 25 C Q Ye, M Wang, V Hofbauer, D Stolzenburg, D Chen, M Schervish, A Vogel, ... Environmental science & technology 53 (21), 12357-12365, 2019 | 38 | 2019 |
| Synergistic HNO3–H2SO4–NH3 upper tropospheric particle formation M Wang, M Xiao, B Bertozzi, G Marie, B Rörup, B Schulze, R Bardakov, ... Nature 605 (7910), 483-489, 2022 | 33 | 2022 |
| Contribution of atmospheric oxygenated organic compounds to particle growth in an urban environment X Qiao, C Yan, X Li, YS Guo, R Yin, C Deng, C Li, W Nie, M Wang, R Cai, ... Environmental Science & Technology 55 (20), 13646-13656, 2021 | 33 | 2021 |
| Determination of the collision rate coefficient between charged iodic acid clusters and iodic acid using the appearance time method XC He, S Iyer, M Sipilä, A Ylisirniö, M Peltola, J Kontkanen, R Baalbaki, ... Aerosol Science and Technology 55 (2), 231-242, 2021 | 27 | 2021 |
| Measurement of iodine species and sulfuric acid using bromide chemical ionization mass spectrometers M Wang, XC He, H Finkenzeller, S Iyer, D Chen, J Shen, M Simon, ... Atmospheric Measurement Techniques Discussions 2020, 1-23, 2020 | 24 | 2020 |
Lei YaoFudan UniversityVerified email at fudan.edu.cn
