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Quantitative dynamics of paradigmatic SN2 reaction OH− + CH3F on accurate full-dimensional potential energy surface

Jie Qin, Yang Liu, Jun Li

2022The Journal of Chemical Physics21 citationsDOI

Abstract

The bimolecular reaction between OH− and CH3F is not just a prototypical SN2 process, but it has three other product channels. Here, we develop an accurate full-dimensional potential energy surface (PES) based on 191 193 points calculated at the level CCSD(T)-F12a/aug-cc-pVTZ. A detailed dynamics and mechanism analysis was carried out on this potential energy surface using the quasi-classical trajectory approach. It is verified that the trajectories do not follow the minimum energy path (MEP), but directly dissociate to F− and CH3OH. In addition, a new transition state for proton exchange and a new product complex CH2F−⋯H2O for proton abstraction were discovered. The trajectories avoid the transition state or this complex, instead dissociate to H2O and CH2F− directly through the ridge regions of the minimum energy path before the transition state. These non-MEP dynamics become more pronounced at high collision energies. Detailed dynamic simulations provide new insights into the atomic-level mechanisms of the title reaction, thanks to the new chemically accurate PES, with the aid of machine learning.

Topics & Concepts

Potential energy surfaceSN2 reactionReaction dynamicsProtonPotential energyTransition stateChemistryTrajectoryPath (computing)Molecular dynamicsProduct (mathematics)Atomic physicsComputational chemistryChemical physicsPhysicsComputer scienceQuantum mechanicsMoleculeMathematicsStereochemistryGeometryBiochemistryCatalysisProgramming languageOrganic chemistryAdvanced Chemical Physics StudiesSpectroscopy and Quantum Chemical StudiesQuantum, superfluid, helium dynamics