Ring Polymer Molecular Dynamics Calculations of Thermal Rate Constants for the O([superscript 3]P) + CH[subscript 4] → OH + CH[subscript 3] Reaction: Contributions of Quantum Effects
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The thermal rate constant of the O([superscript 3]P) + CH[subscript 4] → OH + CH[subscript 3] reaction is investigated with ring polymer molecular dynamics on a full-dimensional potential energy surface. Good agreement with experimental and full-dimensional quantum multiconfiguration time-dependent Hartree results between 300 and 1500 K was obtained. It is shown that quantum effects, for example, tunneling and zero-point energy, can be effectively and efficiently included in this path-integral based approach implemented with classical trajectories. Convergence with respect to the number of beads is rapid, suggesting wide applicability for other reactions involving polyatomic molecules.
Date issued
2012-12Department
Massachusetts Institute of Technology. Department of Chemical EngineeringJournal
The Journal of Physical Chemistry Letters
Publisher
American Chemical Society (ACS)
Citation
Li, Yongle, Yury V. Suleimanov, Minghui Yang, William H. Green, and Hua Guo. “Ring Polymer Molecular Dynamics Calculations of Thermal Rate Constants for the O([superscript 3]P) + CH[subscript 4] → OH + CH[subscript 3] Reaction: Contributions of Quantum Effects.” The Journal of Physical Chemistry Letters 4, no. 1 (January 3, 2013): 48–52.
Version: Author's final manuscript
ISSN
1948-7185