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Benchmark ab initio characterization of the multi-channel Cl + CH 3 X [X = F, Cl, Br, I] reactive potential energy surfaces.

Dorina R GálDóra PappGábor Czakó
Published in: Physical chemistry chemical physics : PCCP (2024)
We determine benchmark geometries and relative energies for the stationary points of the Cl + CH 3 X [X = F, Cl, Br, I] reactions. We consider four possible reaction pathways: hydrogen abstraction, hydrogen substitution, halogen abstraction, and halogen substitution, where the substitution processes can proceed via either Walden inversion or front-side attack. We perform geometry optimizations and obtain harmonic vibrational frequencies at the explicitly-correlated UCCSD(T)-F12b/aug-cc-pVTZ level of theory, followed by UCCSD(T)-F12b/aug-cc-pVQZ single-point computations to make finite-basis-set error negligible. To reach chemical (<1 kcal mol -1 ), or even subchemical (<0.5 kcal mol -1 ) accuracy, we include core-correlation, scalar relativistic, post-(T), spin-orbit-splitting and zero-point-energy contributions, as well, in the relative energies of all the stationary points. Our benchmark 0 K reaction enthalpies are compared to available experimental results and show good agreement. The stationary-point structures and energetics are interpreted in terms of Hammond's postulate and used to make predictions related to the dynamical behavior of these reactive systems.
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