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Published November 17, 2023 | Published
Journal Article Open

Particle-phase accretion forms dimer esters in pinene secondary organic aerosol

Kenseth, Christopher M. ORCID icon
Hafeman, Nicholas J. ORCID icon
Rezgui, Samir P. ORCID icon
Chen, Jing ORCID icon
Huang, Yuanlong ORCID icon
Dalleska, Nathan F. ORCID icon
Kjaergaard, Henrik G. ORCID icon
Stoltz, Brian M. ORCID icon
Seinfeld, John H. ORCID icon
Wennberg, Paul O. ORCID icon

Abstract

Secondary organic aerosol (SOA) is ubiquitous in the atmosphere and plays a pivotal role in climate, air quality, and health. The production of low-volatility dimeric compounds through accretion reactions is a key aspect of SOA formation. However, despite extensive study, the structures and thus the formation mechanisms of dimers in SOA remain largely uncharacterized. In this work, we elucidate the structures of several major dimer esters in SOA from ozonolysis of α-pinene and β-pinene—substantial global SOA sources—through independent synthesis of authentic standards. We show that these dimer esters are formed in the particle phase and propose a mechanism of nucleophilic addition of alcohols to a cyclic acylperoxyhemiacetal. This chemistry likely represents a general pathway to dimeric compounds in ambient SOA.

Copyright and License

© 2023 the authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original US government works. https://www.science.org/about/science-licenses-journal-article-reuse

Acknowledgement

We thank J. D. Crounse and J. A. Thornton for useful discussions and the Thomson group at Northwestern University for providing one of the dimer ester standards. UPLC/(−)ESI-Q-TOF-MS was performed in the Resnick Sustainability Institute Water and Environment Lab at the California Institute of Technology.

Funding

This work was supported by the National Science Foundation (AGS-1523500, CHE-1800511, and CHE-1905340), the Independent Research Fund Denmark (9040-00142B), the Villum Fonden (VIL50443), and the Alfred P. Sloan Foundation (G-2019-12281). C.M.K. acknowledges support from a National Science Foundation Atmospheric and Geospace Sciences Postdoctoral Research Fellowship (AGS-2132296).

Contributions

C.M.K. designed research; C.M.K. and Y.H. performed research; C.M.K., N.J.H., S.P.R., and B.M.S. contributed new reagents; J.C. and H.G.K. performed theoretical calculations; C.M.K., J.C., Y.H., N.F.D., and P.O.W. analyzed data; and C.M.K., J.H.S., and P.O.W. wrote the paper.

Data Availability

ll data are available in the main text or supplementary materials.

Conflict of Interest

The authors declare no competing interests.

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November 17, 2023
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