Journal article
Gas-Phase Phenyl Radical O2 Reacts via a Submerged Transition State
OJ Shiels, SJP Marlton, BLJ Poad, SJ Blanksby, G da Silva, AJ Trevitt
Journal of Physical Chemistry A | AMER CHEMICAL SOC | Published : 2024
Abstract
In the gas-phase chemistry of the atmosphere and automotive fuel combustion, peroxyl radical intermediates are formed following O2 addition to carbon-centered radicals which then initiate a complex network of radical reactions that govern the oxidative processing of hydrocarbons. The rapid association of the phenyl radical-a fundamental radical related to benzene-with O2 has hitherto been modeled as a barrierless process, a common assumption for peroxyl radical formation. Here, we provide an alternate explanation for the kinetics of this reaction by deploying double-hybrid density functional theory (DFT), at the DSD-PBEP86-D3(BJ)/aug-cc-pVTZ level of theory, and locate a submerged adiabatic ..
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Awarded by Australian Research Council
Funding Acknowledgements
A.J.T., S.J.B., and G.d.S. acknowledge project funding from the Australian Research Council Discovery Program (DP170101596). This work was supported by computational resources provided by the Australian Government through the National Computational Infrastructure under the National Computational Merit Allocation Scheme. O.J.S. acknowledges receipt of an Australian Government Research Training Program Scholarship.