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Molecular identification of organic vapors driving atmospheric nanoparticle growth

Author

Listed:
  • Claudia Mohr

    (Stockholm University)

  • Joel A. Thornton

    (University of Washington)

  • Arto Heitto

    (University of Eastern Finland)

  • Felipe D. Lopez-Hilfiker

    (University of Washington
    Tofwerk AG)

  • Anna Lutz

    (University of Gothenburg)

  • Ilona Riipinen

    (Stockholm University)

  • Juan Hong

    (University of Helsinki)

  • Neil M. Donahue

    (Carnegie Mellon University)

  • Mattias Hallquist

    (University of Gothenburg)

  • Tuukka Petäjä

    (University of Helsinki)

  • Markku Kulmala

    (University of Helsinki)

  • Taina Yli-Juuti

    (University of Eastern Finland)

Abstract

Particles formed in the atmosphere via nucleation provide about half the number of atmospheric cloud condensation nuclei, but in many locations, this process is limited by the growth of the newly formed particles. That growth is often via condensation of organic vapors. Identification of these vapors and their sources is thus fundamental for simulating changes to aerosol-cloud interactions, which are one of the most uncertain aspects of anthropogenic climate forcing. Here we present direct molecular-level observations of a distribution of organic vapors in a forested environment that can explain simultaneously observed atmospheric nanoparticle growth from 3 to 50 nm. Furthermore, the volatility distribution of these vapors is sufficient to explain nanoparticle growth without invoking particle-phase processes. The agreement between observed mass growth, and the growth predicted from the observed mass of condensing vapors in a forested environment thus represents an important step forward in the characterization of atmospheric particle growth.

Suggested Citation

  • Claudia Mohr & Joel A. Thornton & Arto Heitto & Felipe D. Lopez-Hilfiker & Anna Lutz & Ilona Riipinen & Juan Hong & Neil M. Donahue & Mattias Hallquist & Tuukka Petäjä & Markku Kulmala & Taina Yli-Juu, 2019. "Molecular identification of organic vapors driving atmospheric nanoparticle growth," Nature Communications, Nature, vol. 10(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-12473-2
    DOI: 10.1038/s41467-019-12473-2
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    Cited by:

    1. Wei Nie & Chao Yan & Liwen Yang & Pontus Roldin & Yuliang Liu & Alexander L. Vogel & Ugo Molteni & Dominik Stolzenburg & Henning Finkenzeller & Antonio Amorim & Federico Bianchi & Joachim Curtius & Lu, 2023. "NO at low concentration can enhance the formation of highly oxygenated biogenic molecules in the atmosphere," Nature Communications, Nature, vol. 14(1), pages 1-11, December.

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