SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4220768503> ?p ?o ?g. }

Showing items 1 to 100 of ±146 with 100 items per page.

W4220768503 endingPage "116" @default.
W4220768503 startingPage "116" @default.
W4220768503 abstract "Background: Acetone is present in the earth´s atmosphere and extra-terrestrially. The knowledge of its chemical history in these environments represents a challenge with important implications for global tropospheric chemistry and astrochemistry. The results of a search for efficient barrierless pathways producing acetone from radicals in the gas phase are described in this paper. The spectroscopic properties of radicals needed for their experimental detection are provided. Methods: The reactants were acetone fragments of low stability and small species containing C, O and H atoms. Two exergonic bimolecular addition reactions involving the radicals CH 3, CH 3CO, and CH 3COCH 2, were found to be competitive according to the kinetic rates calculated at different temperatures. An extensive spectroscopic study of the radicals CH 3COCH 2 and CH 3CO, as well as the CH 2CHO isomer, was performed. Rovibrational parameters, anharmonic vibrational transitions, and excitations to the low-lying excited states are provided. For this purpose, RCCSD(T)-F12 and MRCI/CASSCF calculations were performed. In addition, since all the species presented non-rigid properties, a variational procedure of reduced dimensionality was employed to explore the far infrared region. Results: The internal rotation barriers were determined to be V 3=143.7 cm -1 (CH 3CO), V 2=3838.7 cm -1 (CH 2CHO) and V 3=161.4 cm -1 and V 2=2727.5 cm -1 (CH 3COCH 2).The splitting of the ground vibrational state due to the torsional barrier have been computed to be 2.997 cm -1, 0.0 cm -1, and 0.320 cm -1, for CH 3CO, CH 2CHO, and CH 3COCH 2, respectively. Conclusions: Two addition reactions, H+CH 3COCH 2 and CH 3+CH 3CO, could be considered barrierless formation processes of acetone after considering all the possible formation routes, starting from 58 selected reactants, which are fragments of the molecule. The spectroscopic study of the radicals involved in the formation processes present non-rigidity. The interconversion of their equilibrium geometries has important spectroscopic effects on CH 3CO and CH 3COCH 2, but is negligible for CH 2CHO." @default.
W4220768503 created "2022-04-03" @default.
W4220768503 creator A5024546964 @default.
W4220768503 creator A5027032743 @default.
W4220768503 creator A5034166586 @default.
W4220768503 creator A5043010774 @default.
W4220768503 creator A5047761084 @default.
W4220768503 creator A5055240368 @default.
W4220768503 creator A5057491753 @default.
W4220768503 creator A5062039450 @default.
W4220768503 date "2022-03-18" @default.
W4220768503 modified "2023-09-26" @default.
W4220768503 title "Theoretical spectroscopic study of acetyl (CH3CO), vinoxy (CH2CHO), and 1-methylvinoxy (CH3COCH2) radicals. Barrierless formation processes of acetone in the gas phase" @default.
W4220768503 cites W1498578325 @default.
W4220768503 cites W1906962330 @default.
W4220768503 cites W1966139400 @default.
W4220768503 cites W1966443459 @default.
W4220768503 cites W1971275758 @default.
W4220768503 cites W1975065229 @default.
W4220768503 cites W1975786230 @default.
W4220768503 cites W1976765852 @default.
W4220768503 cites W1983796983 @default.
W4220768503 cites W1985864193 @default.
W4220768503 cites W1989842248 @default.
W4220768503 cites W1990033926 @default.
W4220768503 cites W1991012549 @default.
W4220768503 cites W1993077801 @default.
W4220768503 cites W1997401575 @default.
W4220768503 cites W1999040517 @default.
W4220768503 cites W2000193505 @default.
W4220768503 cites W2003320348 @default.
W4220768503 cites W2005417333 @default.
W4220768503 cites W2006669018 @default.
W4220768503 cites W2008030246 @default.
W4220768503 cites W2014748781 @default.
W4220768503 cites W2018937156 @default.
W4220768503 cites W2022382565 @default.
W4220768503 cites W2025804611 @default.
W4220768503 cites W2027132309 @default.
W4220768503 cites W2032275000 @default.
W4220768503 cites W2032436962 @default.
W4220768503 cites W2035413221 @default.
W4220768503 cites W2035553816 @default.
W4220768503 cites W2035577513 @default.
W4220768503 cites W2044477036 @default.
W4220768503 cites W2044724516 @default.
W4220768503 cites W2048816628 @default.
W4220768503 cites W2049173638 @default.
W4220768503 cites W2050396164 @default.
W4220768503 cites W2052125280 @default.
W4220768503 cites W2062606596 @default.
W4220768503 cites W2070947097 @default.
W4220768503 cites W2071337130 @default.
W4220768503 cites W2078949482 @default.
W4220768503 cites W2079416715 @default.
W4220768503 cites W2086505034 @default.
W4220768503 cites W2086681377 @default.
W4220768503 cites W2087494256 @default.
W4220768503 cites W2087590725 @default.
W4220768503 cites W2091621316 @default.
W4220768503 cites W2143896080 @default.
W4220768503 cites W2160665666 @default.
W4220768503 cites W2171445884 @default.
W4220768503 cites W2332249818 @default.
W4220768503 cites W2342437225 @default.
W4220768503 cites W2527511019 @default.
W4220768503 cites W2547030821 @default.
W4220768503 cites W2793193622 @default.
W4220768503 cites W2898438967 @default.
W4220768503 cites W2944447396 @default.
W4220768503 cites W3101091773 @default.
W4220768503 cites W3106233464 @default.
W4220768503 cites W3136039259 @default.
W4220768503 cites W3162558752 @default.
W4220768503 cites W3182052919 @default.
W4220768503 cites W4302114849 @default.
W4220768503 doi "https://doi.org/10.12688/openreseurope.14073.2" @default.
W4220768503 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37645120" @default.
W4220768503 hasPublicationYear "2022" @default.
W4220768503 type Work @default.
W4220768503 citedByCount "0" @default.
W4220768503 crossrefType "journal-article" @default.
W4220768503 hasAuthorship W4220768503A5024546964 @default.
W4220768503 hasAuthorship W4220768503A5027032743 @default.
W4220768503 hasAuthorship W4220768503A5034166586 @default.
W4220768503 hasAuthorship W4220768503A5043010774 @default.
W4220768503 hasAuthorship W4220768503A5047761084 @default.
W4220768503 hasAuthorship W4220768503A5055240368 @default.
W4220768503 hasAuthorship W4220768503A5057491753 @default.
W4220768503 hasAuthorship W4220768503A5062039450 @default.
W4220768503 hasBestOaLocation W42207685031 @default.
W4220768503 hasConcept C121332964 @default.
W4220768503 hasConcept C139066938 @default.
W4220768503 hasConcept C147597530 @default.
W4220768503 hasConcept C147724859 @default.
W4220768503 hasConcept C147789679 @default.
W4220768503 hasConcept C167812310 @default.
W4220768503 hasConcept C178790620 @default.