SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2083676360> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W2083676360 endingPage "4457" @default.
W2083676360 startingPage "4446" @default.
W2083676360 abstract "In a companion paper (Kroll, J. H.; Clarke, J. S.; Donahue, N. M.; Anderson, J. G.; Demerjian, K. L. J. Phys. Chem. A 2001, 105, 1554) we present direct measurements of hydroxyl radical (OH) yields for the gas-phase reaction of ozone with a number of symmetric alkenes. Yields are strongly pressure-dependent, contrary to the results of prior scavenger studies. Here we present a statistical-dynamical model of OH production from the reaction, utilizing RRKM/master equation calculations to determine the fate of the carbonyl oxide intermediate. This model agrees with our experimental results, in that both theory and observations indicate strongly pressure-dependent OH yields. Our calculations also suggest that ethene ozonolysis produces OH via a different channel than the substituted alkenes, though the identity of this channel is not clear. This channel may play a role in the ozonolysis of monosubstituted alkenes as well. Our time-dependent master equation calculations show that the discrepancy between OH yields measured in our direct study and those measured in prior scavenger studies may arise from differing experimental time scales; on short time scales, OH is formed only from the vibrationally excited carbonyl oxide intermediate, whereas on longer time scales OH formation from thermal dissociation may be significant. To demonstrate this we present time-dependent measurements of OH yields at 10 Torr and 100 Torr; yields begin increasing after hundreds of milliseconds, an effect which is much more pronounced at 100 Torr. These results are entirely consistent with theoretical predictions. In the atmosphere, the thermalized carbonyl oxide may be susceptible to bimolecular reactions which, if fast enough, could prevent dissociation to OH; however there is little experimental evidence that any such reactions are important. Thus we conclude that both mechanisms of OH formation (dissociation of vibrationally excited carbonyl oxide and dissociation of thermalized carbonyl oxide) are significant in the troposphere." @default.
W2083676360 created "2016-06-24" @default.
W2083676360 creator A5002561581 @default.
W2083676360 creator A5002729456 @default.
W2083676360 creator A5031522794 @default.
W2083676360 creator A5041685684 @default.
W2083676360 creator A5078338783 @default.
W2083676360 date "2001-04-12" @default.
W2083676360 modified "2023-10-14" @default.
W2083676360 title "Mechanism of HO<i><sub>x</sub></i> Formation in the Gas-Phase Ozone-Alkene Reaction. 2. Prompt versus Thermal Dissociation of Carbonyl Oxides to Form OH" @default.
W2083676360 cites W1970142422 @default.
W2083676360 cites W1971457659 @default.
W2083676360 cites W1975423769 @default.
W2083676360 cites W1979410678 @default.
W2083676360 cites W1983512665 @default.
W2083676360 cites W1986417862 @default.
W2083676360 cites W1988811044 @default.
W2083676360 cites W1989651238 @default.
W2083676360 cites W1989725042 @default.
W2083676360 cites W1999906506 @default.
W2083676360 cites W2000506423 @default.
W2083676360 cites W2012510947 @default.
W2083676360 cites W2013469890 @default.
W2083676360 cites W2013949006 @default.
W2083676360 cites W2017177064 @default.
W2083676360 cites W2019851865 @default.
W2083676360 cites W2030619531 @default.
W2083676360 cites W2044671256 @default.
W2083676360 cites W2046901677 @default.
W2083676360 cites W2053797675 @default.
W2083676360 cites W2054527462 @default.
W2083676360 cites W2055139039 @default.
W2083676360 cites W2055385225 @default.
W2083676360 cites W2061690787 @default.
W2083676360 cites W2063511039 @default.
W2083676360 cites W2065666992 @default.
W2083676360 cites W2067303284 @default.
W2083676360 cites W2070855751 @default.
W2083676360 cites W2073410237 @default.
W2083676360 cites W2075256441 @default.
W2083676360 cites W2082426359 @default.
W2083676360 cites W2084034186 @default.
W2083676360 cites W2088152348 @default.
W2083676360 cites W2089481164 @default.
W2083676360 cites W2089758115 @default.
W2083676360 cites W2093659080 @default.
W2083676360 cites W2094314682 @default.
W2083676360 cites W2100036633 @default.
W2083676360 cites W2105089229 @default.
W2083676360 cites W2120642731 @default.
W2083676360 cites W2152814694 @default.
W2083676360 cites W2171894480 @default.
W2083676360 cites W2313614050 @default.
W2083676360 cites W612385047 @default.
W2083676360 cites W90410897 @default.
W2083676360 doi "https://doi.org/10.1021/jp004136v" @default.
W2083676360 hasPublicationYear "2001" @default.
W2083676360 type Work @default.
W2083676360 sameAs 2083676360 @default.
W2083676360 citedByCount "203" @default.
W2083676360 countsByYear W20836763602012 @default.
W2083676360 countsByYear W20836763602013 @default.
W2083676360 countsByYear W20836763602014 @default.
W2083676360 countsByYear W20836763602015 @default.
W2083676360 countsByYear W20836763602016 @default.
W2083676360 countsByYear W20836763602017 @default.
W2083676360 countsByYear W20836763602018 @default.
W2083676360 countsByYear W20836763602019 @default.
W2083676360 countsByYear W20836763602020 @default.
W2083676360 countsByYear W20836763602021 @default.
W2083676360 countsByYear W20836763602022 @default.
W2083676360 countsByYear W20836763602023 @default.
W2083676360 crossrefType "journal-article" @default.
W2083676360 hasAuthorship W2083676360A5002561581 @default.
W2083676360 hasAuthorship W2083676360A5002729456 @default.
W2083676360 hasAuthorship W2083676360A5031522794 @default.
W2083676360 hasAuthorship W2083676360A5041685684 @default.
W2083676360 hasAuthorship W2083676360A5078338783 @default.
W2083676360 hasConcept C102931765 @default.
W2083676360 hasConcept C120128738 @default.
W2083676360 hasConcept C121332964 @default.
W2083676360 hasConcept C139066938 @default.
W2083676360 hasConcept C147597530 @default.
W2083676360 hasConcept C147789679 @default.
W2083676360 hasConcept C161790260 @default.
W2083676360 hasConcept C178790620 @default.
W2083676360 hasConcept C181500209 @default.
W2083676360 hasConcept C184779094 @default.
W2083676360 hasConcept C185592680 @default.
W2083676360 hasConcept C2776254738 @default.
W2083676360 hasConcept C2779173278 @default.
W2083676360 hasConcept C30646810 @default.
W2083676360 hasConcept C508106653 @default.
W2083676360 hasConcept C516920438 @default.
W2083676360 hasConcept C56783068 @default.
W2083676360 hasConcept C75473681 @default.
W2083676360 hasConcept C97355855 @default.
W2083676360 hasConceptScore W2083676360C102931765 @default.