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« Previous AbstractComputational and Experimental Investigation of the Detection of HO(2) Radical and the Products of Its Reaction with Cyclohexene Ozonolysis Derived RO(2) Radicals by an Iodide-Based Chemical Ionization Mass Spectrometer    Next AbstractMolecular mechanism for rapid autoxidation in alpha-pinene ozonolysis »

J Phys Chem A


Title:Computational Investigation of RO(2) + HO(2) and RO(2) + RO(2) Reactions of Monoterpene Derived First-Generation Peroxy Radicals Leading to Radical Recycling
Author(s):Iyer S; Reiman H; Moller KH; Rissanen MP; Kjaergaard HG; Kurten T;
Address:"Department of Chemistry and Institute for Atmospheric and Earth System Research (INAR) , University of Helsinki , P.O. Box 55, FI-00014 , Helsinki , Finland. Department of Chemistry , University of Helsinki , P.O. Box 55, FI-00014 , Helsinki , Finland. Department of Chemistry , University of Copenhagen , DK-2100 Copenhagen O , Denmark. Department of Physics and Institute for Atmospheric and Earth System Research (INAR) , University of Helsinki , P.O. Box 64, FI-00014 , Helsinki , Finland"
Journal Title:J Phys Chem A
Year:2018
Volume:20181204
Issue:49
Page Number:9542 - 9552
DOI: 10.1021/acs.jpca.8b09241
ISSN/ISBN:1520-5215 (Electronic) 1089-5639 (Linking)
Abstract:"The oxidation of biogenically emitted volatile organic compounds (BVOC) plays an important role in the formation of secondary organic aerosols (SOA) in the atmosphere. Peroxy radicals (RO(2)) are central intermediates in the BVOC oxidation process. Under clean (low-NO (x)) conditions, the main bimolecular sink reactions for RO(2) are with the hydroperoxy radical (HO(2)) and with other RO(2) radicals. Especially for small RO(2), the RO(2) + HO(2) reaction mainly leads to closed-shell hydroperoxide products. However, there exist other known RO(2) + HO(2) and RO(2) + RO(2) reaction channels that can recycle radicals and oxidants in the atmosphere, potentially leading to lower-volatility products and enhancing SOA formation. In this work, we present a thermodynamic overview of two such reactions: (a) RO(2) + HO(2) --> RO + OH + O(2) and (b) R'O(2) + RO(2) --> R'O + RO + O(2) for selected monoterpene + oxidant derived peroxy radicals. The monoterpenes considered are alpha-pinene, beta-pinene, limonene, trans-beta-ocimene, and Delta(3)-carene. The oxidants considered are the hydroxyl radical (OH), the nitrate radical (NO(3)), and ozone (O(3)). The reaction Gibbs energies were calculated at the DLPNO-CCSD(T)/def2-QZVPP//omegaB97X-D/aug-cc-pVTZ level of theory. All reactions studied here were found to be exergonic in terms of Gibbs energy. On the basis of a comparison with previous mechanistic studies, we predict that reaction a and reaction b are likely to be most important for first-generation peroxy radicals from O(3) oxidation (especially for beta-pinene), while being less so for most first-generation peroxy radicals from OH and NO(3) oxidation. This is because both reactions are comparatively more exergonic for the O(3) oxidized systems than their OH and NO(3) oxidized counterparts. Our results indicate that bimolecular reactions of certain complex RO(2) may contribute to an increase in radical and oxidant recycling under high HO(2) conditions in the atmosphere, which can potentially enhance SOA formation"
Keywords:
Notes:"PubMed-not-MEDLINEIyer, Siddharth Reiman, Heidi Moller, Kristian H Rissanen, Matti P Kjaergaard, Henrik G Kurten, Theo eng 2018/11/20 J Phys Chem A. 2018 Dec 13; 122(49):9542-9552. doi: 10.1021/acs.jpca.8b09241. Epub 2018 Dec 4"

 
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