Litcius/Paper detail

Full-dimensional automated potential energy surface development and dynamics for the OH + C2H6 reaction

Balázs Gruber, Viktor Tajti, Gábor Czakó

2022The Journal of Chemical Physics17 citationsDOIOpen Access PDF

Abstract

We develop a full-dimensional analytical potential energy surface (PES) for the OH + C2H6 reaction using the Robosurfer program system, which automatically (1) selects geometries from quasi-classical trajectories, (2) performs ab initio computations using a coupled-cluster singles, doubles, and perturbative triples-F12/triple-zeta-quality composite method, (3) fits the energies utilizing the permutationally invariant monomial symmetrization approach, and (4) iteratively improves the PES via steps (1)–(3). Quasi-classical trajectory simulations on the new PES reveal that hydrogen abstraction leading to H2O + C2H5 dominates in the collision energy range of 10–50 kcal/mol. The abstraction cross sections increase and the dominant mechanism shifts from rebound (small impact parameters and backward scattering) to stripping (larger impact parameters and forward scattering) with increasing collision energy as opacity functions and scattering angle distributions indicate. The abstraction reaction clearly favors side-on OH attack over O-side and the least-preferred H-side approach, whereas C2H6 behaves like a spherical object with only slight C–C-perpendicular side-on preference. The collision energy efficiently flows into the relative translation of the products, whereas product internal energy distributions show only little collision energy dependence. H2O/C2H5 vibrational distributions slightly/significantly violate zero-point energy and are nearly independent of collision energy, whereas the rotational distributions clearly blue-shift as the collision energy increases.

Topics & Concepts

CollisionScatteringPotential energy surfaceChemistryAb initioImpact parameterPotential energyAtomic physicsPhysicsMolecular physicsComputational physicsQuantum mechanicsComputer scienceComputer securityAdvanced Chemical Physics StudiesSpectroscopy and Laser ApplicationsAtmospheric chemistry and aerosols