Litcius/Paper detail

Master equation study of hydrogen abstraction from HCHO by OH <i>via</i> a chemically activated intermediate

Ruiming Zhang, Wenqi Chen, Donald G. Truhlar, Xuefei Xu

2022Faraday Discussions13 citationsDOIOpen Access PDF

Abstract

master-equation program is used to explore the time evolutions of the concentrations of the OH radical and the complex under pseudo-first-order conditions. The time-dependent evolution of the concentrations of the complex at a low temperature provide direct evidence for the stabilization of the reaction complex at high pressures, and it shows the negligible role of the stabilized reaction complex at low pressures. The picture that emerges is qualitatively consistent with our previous study of the reaction of methanol with OH in that the tunneling in the unimolecular step from the complex to the products affects the phenomenological reaction rate constants differently at high and low pressures and leads to a significant pressure effect.

Topics & Concepts

ChemistryReaction rate constantHydrogen atom abstractionFormaldehydeTorrHydrogenReaction rateThermodynamicsMethanolMaster equationEquilibrium constantPhysical chemistryQuantum tunnellingComputational chemistryKineticsOrganic chemistryCatalysisQuantum mechanicsPhysicsQuantumCatalysis and Oxidation ReactionsAdvanced Chemical Physics StudiesAtmospheric chemistry and aerosols