Qing Ye
Affiliations: | 2013-2019 | Carnegie Mellon University, Pittsburgh, PA |
Area:
Atmospheric ChemistryGoogle:
"Qing Ye"Mean distance: (not calculated yet)
Parents
Sign in to add mentorNeil M. Donahue | grad student | Carnegie Mellon | |
Jesse H. Kroll | post-doc | MIT |
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Publications
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Ye Q, Yao M, Wang W, et al. (2023) Multiphase interactions between sulfur dioxide and secondary organic aerosol from the photooxidation of toluene: Reactivity and sulfate formation. The Science of the Total Environment. 168736 |
Finkenzeller H, Iyer S, He XC, et al. (2022) The gas-phase formation mechanism of iodic acid as an atmospheric aerosol source. Nature Chemistry |
Nihill KJ, Ye Q, Majluf F, et al. (2021) Influence of the NO/NO Ratio on Oxidation Product Distributions under High-NO Conditions. Environmental Science & Technology |
He XC, Tham YJ, Dada L, et al. (2021) Role of iodine oxoacids in atmospheric aerosol nucleation. Science (New York, N.Y.). 371: 589-595 |
Shi Q, Tao Y, Krechmer JE, et al. (2021) Laboratory Investigation of Renoxification from the Photolysis of Inorganic Particulate Nitrate. Environmental Science & Technology |
Wang M, Chen D, Xiao M, et al. (2020) Photo-oxidation of aromatic hydrocarbons produces low-volatility organic compounds. Environmental Science & Technology |
Wang M, Kong W, Marten R, et al. (2020) Rapid growth of new atmospheric particles by nitric acid and ammonia condensation. Nature. 581: 184-189 |
Ye Q, Li HZ, Gu P, et al. (2020) Moving beyond Fine Particle Mass: High-Spatial Resolution Exposure to Source-Resolved Atmospheric Particle Number and Chemical Mixing State. Environmental Health Perspectives. 128: 17009 |
Simon M, Dada L, Heinritzi M, et al. (2020) Molecular understanding of new-particle formation from α -pinene between −50 and +25 °C Atmospheric Chemistry and Physics. 20: 9183-9207 |
Stolzenburg D, Simon M, Ranjithkumar A, et al. (2020) Enhanced growth rate of atmospheric particles from sulfuric acid Atmospheric Chemistry and Physics. 20: 7359-7372 |