Electronic nonadiabatic effects in low temperature radical-radical reactions. I. C(P-3) + OH((2)Pi)
2014 | journal article. A publication of Göttingen
Jump to: Cite & Linked | Documents & Media | Details | Version history
Cite this publication
Electronic nonadiabatic effects in low temperature radical-radical reactions. I. C(P-3) + OH((2)Pi)
Maergoiz, A. I.; Nikitin, E. E. & Troe, J. (2014)
The Journal of Chemical Physics, 141(4) art. 044302. DOI: https://doi.org/10.1063/1.4889996
Documents & Media
Details
- Authors
- Maergoiz, Anatol I.; Nikitin, E. E.; Troe, Juergen
- Abstract
- The formation of collision complexes, as a first step towards reaction, in collisions between two open-electronic shell radicals is treated within an adiabatic channel approach. Adiabatic channel potentials are constructed on the basis of asymptotic electrostatic, induction, dispersion, and exchange interactions, accounting for spin-orbit coupling within the multitude of electronic states arising from the separated reactants. Suitable coupling schemes (such as rotational + electronic) are designed to secure maximum adiabaticity of the channels. The reaction between C(P-3) and OH((2)Pi) is treated as a representative example. The results show that the low temperature association rate coefficients in general cannot be represented by results obtained with a single (generally the lowest) potential energy surface of the adduct, asymptotically reaching the lowest fine-structure states of the reactants, and a factor accounting for the thermal population of the latter states. Instead, the influence of non-Born-Oppenheimer couplings within the multitude of electronic states arising during the encounter markedly increases the capture rates. This effect extends up to temperatures of several hundred K. (C) 2014 AIP Publishing LLC.
- Issue Date
- 2014
- Status
- published
- Publisher
- Amer Inst Physics
- Journal
- The Journal of Chemical Physics
- ISSN
- 1089-7690; 0021-9606