| 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 | 198 | 2018 |
| 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, 201807604, 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 | 118 | 2021 |
| 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 |
| Overview of measurements and current instrumentation for 1–10 nm aerosol particle number size distributions J Kangasluoma, R Cai, J Jiang, C Deng, D Stolzenburg, LR Ahonen, ... Journal of Aerosol Science 148, 105584, 2020 | 73 | 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 | 70 | 2020 |
| 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 | 60 | 2020 |
| 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 21, 14275–14291, 2021 | 51 | 2021 |
| A flame metal combustion method for production of nanoparticles S Yang, YH Jang, CH Kim, C Hwang, J Lee, S Chae, S Jung, M Choi Powder Technology 197 (3), 170-176, 2010 | 50 | 2010 |
| Molecular Composition and Volatility of Nucleated Particles from α-Pinene Oxidation between -50 °C and +25 °C Q Ye, MY Wang, V Hofbauer, D Stolzenburg, D Chen, M Schervish, ... Environmental Science and Technology, 2019 | 38 | 2019 |
| Two-band luminescence from an intrinsic defect in spherical and terraced MgO nanoparticles PV Pikhitsa, C Kim, S Chae, S Shin, S Jung, M Kitaura, S Kimura, K Fukui, ... Applied Physic Letters 106 (18), 183106, 2015 | 30 | 2015 |
| 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 | 26 | 2021 |
| Positive active material, and positive electrode and lithium battery including positive active material MH Kim, DH Park, JH Kim, JS Lee, CH Kim, KS Young, YC Kim US Patent 8,871,113, 2014 | 26 | 2014 |
| Removal of airborne sub-3 nm particles using fibrous filters and granular activated carbons C Kim, S Kang, DYH Pui Carbon 104, 125-132, 2016 | 25 | 2016 |
| Synthesis of terraced and spherical MgO nanoparticles using flame metal combustion S Chae, H Lee, PV Pikhitsa, C Kim, S Shin, DH Kim, M Choi Powder Technology 305, 132-140, 2017 | 23 | 2017 |
| Spatial distribution of PM2.5 chemical components during winter at five sites in Northeast Asia: High temporal resolution measurement study NK Kim, YP Kim, YS Ghim, MJ Song, CH Kim, KS Jang, KY Lee, HJ Shin, ... Atmospheric Environment 290, 119359, 2022 | 18 | 2022 |
| Positive active material for lithium secondary battery, method of preparing the same, and lithium secondary battery including positive active material MH Kim, D Park, JH Kim, JS Lee, CH Kim, SY Kwon, YC Kim US Patent 9,660,291, 2017 | 18 | 2017 |
| Positive active material for lithium secondary battery, method of preparing the same, and lithium secondary battery including positive active material MH Kim, D Park, JH Kim, JS Lee, CH Kim, SY Kwon, YC Kim EP Patent 2602849B1, 2015 | 18 | 2015 |
| Experimental study on the filtration efficiency of activated carbons for 3-30 nm particles C Kim, DYH Pui Carbon 93, 226-229, 2015 | 18 | 2015 |
David Y. H. PuiRegents Professor, University of MinnesotaVerified email at umn.edu
