Product Branching Fractions and Kinetic Isotope Effects for the Reactions of OH and OD Radicals with CH 3 SH and CH 3 SD

Laser Bash photolysis of DNOs/RSR'/R"H/Nr mixtures (R&HI, R'=CH, or C,H,, R"=n-hexyl or cyclohexyl) has been coupled with HDO detection by time-resolved tunable diode laser absorption spectroscopy to directly investigate the importance of C-H bond cleavage as the q-independent pathway for the atmosp

The hydrogen abstraction reactions of OH radicals with CH₃CH₂CH₂Cl and CH₃CHClCH₃ (R2) have been investigated theoretically by a dual-level direct dynamics method. The optimized geometries and frequencies of the stationary points are calculated at the B3LYP/6-311G(d,p) level. To improve the reaction

Laser flash photolysis of D,O,/RCH,/N, and CI,CO/RCH,/N, mixtures (R = CH,S or H) was coupled with CH, detection by time-resolved tunable-diode laser absorption spectroscopy to investigate the importance of C-S bond cleavage as an O,-independent reaction pathway for the atmospherically interesting r

## Abstract A dual‐level direct dynamic method is employed to study the reaction mechanisms of CF~3~CH~2~OCHF~2~ (HFE‐245fa2; HFE‐245mf) with the OH radicals and Cl atoms. Two hydrogen abstraction channels and two displacement processes are found for each reaction. For further study, the reaction m