Thermal and Vibrationally Activated Decomposition of the syn-CH3CHOO Criegee Intermediate

Abstract

The full reaction pathway between the syn-CH3CHOO Criegee Intermediate via vinyl hydroxyperoxide to OH+CH2COH is followed for vibrationally excited and thermally prepared reactants. The rates from vibrational excitation are consistent with those found from experiments and tunneling is not required for reactivity at all initial conditions probed. For vibrationally excited reactant, VHP accumulates and becomes a bottleneck for the reaction. The two preparations - relevant for laboratory studies and conditions in the atmosphere - lead to a difference of close to one order of magnitude in OH production (~ 5 % vs. 35 %) on the 1 ns time scale which is an important determinant for the chemical evolution of the atmosphere.

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