New insights into the mechanism and kinetics of the addition reaction of unsaturated Criegee intermediates to CF3COOH and tropospheric implications†
Abstract
In this work, we have investigated the mechanism, thermochemistry and kinetics of the reaction of syn–cis-CH2RzCRyC
O+O− (where Rz, Ry = H, CH3–) unsaturated Criegee intermediates (CIs) with CF3COOH using quantum chemical methods. The rate coefficients for the barrierless reactions were calculated using variable reaction coordinate variational transition state theory (VRC-VTST). For the syn–cis-CH2
RzCRyC
O+O− conformation in which conjugated C
C and C
O double bonds are aligned with each other, we propose a new pathway for the unidirectional addition of an O
C–OH molecule (CF3COOH) to the C
C double bond of syn–cis-CH2
RzCRyC
O+O−. The rate coefficient for the 1,4-C
C addition reaction at 298 K is ∼10−10 to 10−11 cm3 s−1, resulting in the formation of CF3C(O)OCH2CRz
RyCOOH trifluoroacetate alkyl allyl hydroperoxide (TFAAAH) as a new transitory adduct. It can act as a precursor for the formation of secondary organic aerosols (SOAs). This novel TFAAAH hydroperoxide was identified through a detailed quantum chemical study of the 1,4-addition mechanism and will provide new insights into the significance of the 1,4-addition reaction of unsaturated Cls with trace tropospheric gases on –CRz
CH2 vinyl carbon atoms.
- This article is part of the themed collection: Atmospheric chemistry