Reactive intermediates revealed in secondary organic aerosol formation from isoprene

Surratt, Jason D.; Chan, Arthur W. H.; Eddingsaas, Nathan C.; Chan, ManNin; Loza, C. L.; Kwan, A. J.; Hersey, S. P.; Flagan, Richard C.; Wennberg, P. O.; Seinfeld, John H.

doi:10.1073/pnas.0911114107

articleProceedings of the National Academy of SciencesDec 31, 2009GREEN OA

Reactive intermediates revealed in secondary organic aerosol formation from isoprene

JDJason D. Surratt AWArthur W. H. Chan NCNathan C. Eddingsaas MCManNin Chan CLC. L. Loza

California Institute of Technology

PubMed

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Abstract

Isoprene is a significant source of atmospheric organic aerosol; however, the oxidation pathways that lead to secondary organic aerosol (SOA) have remained elusive. Here, we identify the role of two key reactive intermediates, epoxydiols of isoprene (IEPOX = beta-IEPOX + delta-IEPOX) and methacryloylperoxynitrate (MPAN), which are formed during isoprene oxidation under low- and high-NO(x) conditions, respectively. Isoprene low-NO(x) SOA is enhanced in the presence of acidified sulfate seed aerosol (mass yield 28.6%) over that in the presence of neutral aerosol (mass yield 1.3%). Increased uptake of IEPOX by acid-catalyzed particle-phase reactions is shown to explain this enhancement. Under high-NO(x)…

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Topics & keywords

Topics

Keywords

Isoprene
Aerosol
Methacrolein
Chemistry
Environmental chemistry
Yield (engineering)
Sulfate
Organic chemistry

UN Sustainable Development Goals

Sustainable cities and communities

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