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Faraday Discuss


Title:Energy-resolved and time-dependent unimolecular dissociation of hydroperoxyalkyl radicals ( QOOH)
Author(s):Bhagde T; Hansen AS; Chen S; Walsh PJ; Klippenstein SJ; Lester MI;
Address:"Department of Chemistry, University of Pennsylvania, Philadelphia, PA 19104-6323, USA. milester@sas.upenn.edu. Chemical Sciences and Engineering Division, Argonne National Laboratory, Lemont, IL 60439, USA"
Journal Title:Faraday Discuss
Year:2022
Volume:20221021
Issue:0
Page Number:575 - 588
DOI: 10.1039/d2fd00008c
ISSN/ISBN:1364-5498 (Electronic) 1359-6640 (Linking)
Abstract:"Hydroperoxyalkyl radicals ( QOOH) are transient intermediates in the atmospheric oxidation of volatile organic compounds and combustion of hydrocarbon fuels in low temperature (<1000 K) environments. The carbon-centered QOOH radicals are a critical juncture in the oxidation mechanism, but have generally eluded direct experimental observation of their structure, stability, and dissociation dynamics. Recently, this laboratory demonstrated that a prototypical QOOH radical [ CH(2)(CH(3))(2)COOH] can be synthesized by an alternative route, stabilized in a pulsed supersonic expansion, and characterized by its infrared (IR) spectroscopic signature and unimolecular dissociation rate to OH radical and cyclic ether products. The present study focuses on a partially deuterated QOOD analog CH(2)(CH(3))(2)COOD, generated in the laboratory by H-atom abstraction from partially deuterated tert-butyl hydroperoxide, (CH(3))(3)COOD. IR spectral features associated with jet-cooled and isolated QOOD radicals are observed in the vicinity of the transition state (TS) barrier leading to OD radical and cyclic ether products. The overtone OD stretch (2nu(OD)) of QOOD is identified by IR action spectroscopy with UV laser-induced fluorescence detection of OD products. Direct time-domain measurement of the unimolecular dissociation rate for QOOD (2nu(OD)) extends prior rate measurements for QOOH. Partial deuteration results in a small increase in the TS barrier predicted by high level electronic structure calculations due to changes in zero-point energies; the imaginary frequency is unchanged. Comparison of the unimolecular decay rates obtained experimentally with those predicted theoretically for both QOOH and QOOD confirm that unimolecular decay is enhanced by heavy-atom tunneling involving simultaneous O-O bond elongation and C-C-O angle contraction along the reaction pathway"
Keywords:
Notes:"PubMed-not-MEDLINEBhagde, Trisha Hansen, Anne S Chen, Shuguang Walsh, Patrick J Klippenstein, Stephen J Lester, Marsha I eng England 2022/07/06 Faraday Discuss. 2022 Oct 21; 238(0):575-588. doi: 10.1039/d2fd00008c"

 
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Citation: El-Sayed AM 2024. The Pherobase: Database of Pheromones and Semiochemicals. <http://www.pherobase.com>.
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