SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2996756474> ?p ?o ?g. }

Showing items 1 to 100 of ±135 with 100 items per page.

W2996756474 endingPage "313" @default.
W2996756474 startingPage "302" @default.
W2996756474 abstract "Ab initio calculations of the C13H10 and C13H9 potential energy surfaces related to the reaction of 1-acenaphthyl and methyl radicals and secondary isomerization of C13H9 primary radical products have been performed at the chemically accurate G3(MP2,CC)//B3LYP/6-311G** level of theory to unravel the mechanism of conversion of acenaphthalene to phenalene or phenalenyl radical + H. The computed energetics and molecular parameters were utilized in Rice-Ramsperger-Kassel-Marcus Master Equation (RRKM-ME) calculations of reaction rate constants and relative product yields. The 1-acenaphthyl + CH3 reaction is predicted to proceed by a fast radical-radical recombination mechanism and to predominantly produce collisionally stabilized 1-methylacenaphthalene B1 or a C13H9 benzylic radical A1 + H with exothermicities of 106.8 and 25.2 kcal/mol, respectively. The A1 + H channel is preferable at higher temperatures, whereas the stabilization of 1-methylacenaphthalene is favored at higher pressures. The radical A1 can nearly irreversibly interconvert to phenalenyl radical AP via a 22.7 kcal/mol exothermic isomerization process involving formal insertion of the CH2 group into a CC bond of the five-member ring leading to the expansion of this ring to a six-member ring. The rate constants for the H addition reaction to phenalenyl radical to form phenalene and the reverse H loss from phenalene were also computed and the strength of the weakest CH bond in the CH2 group of phenalene is evaluated as 62.2 kcal/mol. The analysis of the reaction kinetics allowed us to deduce a mechanism for the conversion of 1-acenaphthyl radical to phenalene or phenalenyl radical + H via methylation involving the formation of A1 via a well-skipping channel or stabilization and dissociation of (or H abstraction from) B1 followed by isomerization of A1 to phenalenyl AP, which can add an H atom producing phenalene. Rate constants for the significant elementary reactions are fitted to modified Arrhenius expressions and are proposed for kinetic modeling of the expansion of a five-member ring on a zigzag edge of PAH to a six-member ring by methylation." @default.
W2996756474 created "2019-12-26" @default.
W2996756474 creator A5000118723 @default.
W2996756474 creator A5053909133 @default.
W2996756474 creator A5080022083 @default.
W2996756474 date "2020-03-01" @default.
W2996756474 modified "2023-10-12" @default.
W2996756474 title "Conversion of acenaphthalene to phenalene via methylation: A theoretical study" @default.
W2996756474 cites W1491187441 @default.
W2996756474 cites W1966281189 @default.
W2996756474 cites W1967474034 @default.
W2996756474 cites W1975150576 @default.
W2996756474 cites W1975423769 @default.
W2996756474 cites W1981537309 @default.
W2996756474 cites W1987948383 @default.
W2996756474 cites W1990391639 @default.
W2996756474 cites W1993269755 @default.
W2996756474 cites W1994047705 @default.
W2996756474 cites W1995551012 @default.
W2996756474 cites W1996789987 @default.
W2996756474 cites W2003000856 @default.
W2996756474 cites W2005834079 @default.
W2996756474 cites W2006103943 @default.
W2996756474 cites W2007582143 @default.
W2996756474 cites W2017476613 @default.
W2996756474 cites W2023271753 @default.
W2996756474 cites W2023287068 @default.
W2996756474 cites W2025396755 @default.
W2996756474 cites W2031123341 @default.
W2996756474 cites W2031981779 @default.
W2996756474 cites W2036979176 @default.
W2996756474 cites W2045233427 @default.
W2996756474 cites W2045847248 @default.
W2996756474 cites W2046132542 @default.
W2996756474 cites W2047674674 @default.
W2996756474 cites W2051148391 @default.
W2996756474 cites W2055429098 @default.
W2996756474 cites W2064721008 @default.
W2996756474 cites W2073582183 @default.
W2996756474 cites W2074396432 @default.
W2996756474 cites W2075230606 @default.
W2996756474 cites W2075730114 @default.
W2996756474 cites W2076879849 @default.
W2996756474 cites W2082480147 @default.
W2996756474 cites W2084140584 @default.
W2996756474 cites W2084642664 @default.
W2996756474 cites W2098418589 @default.
W2996756474 cites W2114761001 @default.
W2996756474 cites W2118343782 @default.
W2996756474 cites W2143981217 @default.
W2996756474 cites W2156902602 @default.
W2996756474 cites W2165912067 @default.
W2996756474 cites W2315159758 @default.
W2996756474 cites W2330868039 @default.
W2996756474 cites W2402698095 @default.
W2996756474 cites W2486319899 @default.
W2996756474 cites W2570874454 @default.
W2996756474 cites W2592924861 @default.
W2996756474 cites W2765984821 @default.
W2996756474 cites W2809253383 @default.
W2996756474 cites W2810535486 @default.
W2996756474 cites W2884496747 @default.
W2996756474 cites W2892060029 @default.
W2996756474 cites W2968282850 @default.
W2996756474 cites W4255403102 @default.
W2996756474 cites W572419094 @default.
W2996756474 doi "https://doi.org/10.1016/j.combustflame.2019.11.038" @default.
W2996756474 hasPublicationYear "2020" @default.
W2996756474 type Work @default.
W2996756474 sameAs 2996756474 @default.
W2996756474 citedByCount "23" @default.
W2996756474 countsByYear W29967564742020 @default.
W2996756474 countsByYear W29967564742021 @default.
W2996756474 countsByYear W29967564742022 @default.
W2996756474 countsByYear W29967564742023 @default.
W2996756474 crossrefType "journal-article" @default.
W2996756474 hasAuthorship W2996756474A5000118723 @default.
W2996756474 hasAuthorship W2996756474A5053909133 @default.
W2996756474 hasAuthorship W2996756474A5080022083 @default.
W2996756474 hasBestOaLocation W29967564741 @default.
W2996756474 hasConcept C121332964 @default.
W2996756474 hasConcept C126661725 @default.
W2996756474 hasConcept C139066938 @default.
W2996756474 hasConcept C147597530 @default.
W2996756474 hasConcept C147789679 @default.
W2996756474 hasConcept C148898269 @default.
W2996756474 hasConcept C161790260 @default.
W2996756474 hasConcept C178790620 @default.
W2996756474 hasConcept C185592680 @default.
W2996756474 hasConcept C2780378348 @default.
W2996756474 hasConcept C2781442258 @default.
W2996756474 hasConcept C45119746 @default.
W2996756474 hasConcept C62520636 @default.
W2996756474 hasConcept C65024703 @default.
W2996756474 hasConcept C75473681 @default.
W2996756474 hasConcept C93391505 @default.
W2996756474 hasConceptScore W2996756474C121332964 @default.
W2996756474 hasConceptScore W2996756474C126661725 @default.