Release Time:2020-02-17  Hits:

Indexed by: Journal Papers

Date of Publication: 2020-04-10

Journal: SCIENCE OF THE TOTAL ENVIRONMENT

Included Journals: SCIE、EI、PubMed

Volume: 712

Page Number: 136330

ISSN: 0048-9697

Key Words: VOCs; HOMs; SOA formation

Abstract: The reaction with chlorine radicals (center dot Cl) has been considered to be one of indispensable sinks for isoprene. However, the mechanism of center dot Cl initiated isoprene reaction was not fully understood. Herein, the reaction of isoprene with center dot Cl, and ensuing reactions of the resulting isoprene relevant radicals were investigated by combined quantum chemistry calculations and kinetics modeling. The results indicate that center dot Cl addition to two terminal C-atoms of two double bonds of isoprene, forming IM1-1 and IM1-4, are more favorable than H-abstractions from isoprene. Interestingly, the predicted reaction rate constant for the direct H-abstraction pathway is much lower than that of the indirect one, clarifying a direct H-abstraction mechanism for previously experimental observation. The IM1-1 and IM1-4 have distinct fate in their subsequent transformation. The reaction of IM1-1 ends after the one-time O-2 addition. However, IM1-4 can follow auto-oxidation mechanism with two times O-2 addition to finally form highly oxidized multi-functional molecules (HOMs), C5H7ClO3 and center dot OH. More importantly, the estimated contribution of center dot Cl on HOMs (monomer only) formation from isoprene is lower than that of center dot OH in addition pathway, implying overall HOMs yield from atmospheric isoprene oxidation could be overestimated if the role of center dot Cl in transforming isoprene is ignored. (C) 2019 Elsevier B.V. All rights reserved.