SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3135340417> ?p ?o ?g. }

Showing items 1 to 100 of ±133 with 100 items per page.

W3135340417 endingPage "111166" @default.
W3135340417 startingPage "111166" @default.
W3135340417 abstract "We calculated the equilibrium structures and harmonic vibrational frequencies of acrolein (including molecule, cation and anion) using the B3LYP, PBE0, and M06-2X approaches. We also computed the Franck–Condon factors and simulated the photoelectron spectra of acrolein molecules and anions. The adiabatic ionization energy (AIE) and electron affinity were computed using the CCSD(T) approach via extrapolation to the complete basis set limit. Trans-acrolein is identified as the primary isomer responsible for the photoelectron spectra of acrolein being observed. The calculated AIEs were consistent with the experiment. The cis-acrolein anion is predicted to be more stable than its trans- counterpart. However, the potential barrier might prohibit the isomerization of the acrolein anion. Accordingly, the type of isomer of acrolein anion that will be produced from electron-attaching to the more stable trans-acrolein molecule remains unknown. The simulated photoelectron spectra of the acrolein anion can be used to identify the isomer being produced." @default.
W3135340417 created "2021-03-15" @default.
W3135340417 creator A5018152767 @default.
W3135340417 creator A5053505677 @default.
W3135340417 creator A5065599853 @default.
W3135340417 creator A5076827035 @default.
W3135340417 date "2021-06-01" @default.
W3135340417 modified "2023-10-18" @default.
W3135340417 title "Distinction of photoelectron spectroscopy of cis- and trans-acrolein explored by theoretical computation" @default.
W3135340417 cites W1968497887 @default.
W3135340417 cites W1972340592 @default.
W3135340417 cites W1975002236 @default.
W3135340417 cites W1985614185 @default.
W3135340417 cites W1989798641 @default.
W3135340417 cites W1990058083 @default.
W3135340417 cites W1994694157 @default.
W3135340417 cites W1997799307 @default.
W3135340417 cites W2002782616 @default.
W3135340417 cites W2003491296 @default.
W3135340417 cites W2004354278 @default.
W3135340417 cites W2007597765 @default.
W3135340417 cites W2009114234 @default.
W3135340417 cites W2014406463 @default.
W3135340417 cites W2014984172 @default.
W3135340417 cites W2019085123 @default.
W3135340417 cites W2020330861 @default.
W3135340417 cites W2021077644 @default.
W3135340417 cites W2021757060 @default.
W3135340417 cites W2024201834 @default.
W3135340417 cites W2024734227 @default.
W3135340417 cites W2026612750 @default.
W3135340417 cites W2029482929 @default.
W3135340417 cites W2031886963 @default.
W3135340417 cites W2034315559 @default.
W3135340417 cites W2034537508 @default.
W3135340417 cites W2036454971 @default.
W3135340417 cites W2037866989 @default.
W3135340417 cites W2044299891 @default.
W3135340417 cites W2044507210 @default.
W3135340417 cites W2046004569 @default.
W3135340417 cites W2051623717 @default.
W3135340417 cites W2057730014 @default.
W3135340417 cites W2058807073 @default.
W3135340417 cites W2061944398 @default.
W3135340417 cites W2063208267 @default.
W3135340417 cites W2064930841 @default.
W3135340417 cites W2066098002 @default.
W3135340417 cites W2066269270 @default.
W3135340417 cites W2068174508 @default.
W3135340417 cites W2072339719 @default.
W3135340417 cites W2074224836 @default.
W3135340417 cites W2081424818 @default.
W3135340417 cites W2081505046 @default.
W3135340417 cites W2092173814 @default.
W3135340417 cites W2121691392 @default.
W3135340417 cites W2141836721 @default.
W3135340417 cites W2150697053 @default.
W3135340417 cites W2152394120 @default.
W3135340417 cites W2273801425 @default.
W3135340417 cites W2314392329 @default.
W3135340417 cites W251001472 @default.
W3135340417 cites W2765625945 @default.
W3135340417 cites W2792752526 @default.
W3135340417 cites W2804918367 @default.
W3135340417 cites W2904283559 @default.
W3135340417 cites W2921864297 @default.
W3135340417 cites W2950226979 @default.
W3135340417 cites W3014287715 @default.
W3135340417 cites W331038787 @default.
W3135340417 cites W4251730039 @default.
W3135340417 cites W573316605 @default.
W3135340417 doi "https://doi.org/10.1016/j.chemphys.2021.111166" @default.
W3135340417 hasPublicationYear "2021" @default.
W3135340417 type Work @default.
W3135340417 sameAs 3135340417 @default.
W3135340417 citedByCount "1" @default.
W3135340417 countsByYear W31353404172021 @default.
W3135340417 crossrefType "journal-article" @default.
W3135340417 hasAuthorship W3135340417A5018152767 @default.
W3135340417 hasAuthorship W3135340417A5053505677 @default.
W3135340417 hasAuthorship W3135340417A5065599853 @default.
W3135340417 hasAuthorship W3135340417A5076827035 @default.
W3135340417 hasConcept C121332964 @default.
W3135340417 hasConcept C126661725 @default.
W3135340417 hasConcept C145148216 @default.
W3135340417 hasConcept C147192597 @default.
W3135340417 hasConcept C147597530 @default.
W3135340417 hasConcept C161790260 @default.
W3135340417 hasConcept C175708663 @default.
W3135340417 hasConcept C178790620 @default.
W3135340417 hasConcept C185592680 @default.
W3135340417 hasConcept C198291218 @default.
W3135340417 hasConcept C2780422782 @default.
W3135340417 hasConcept C32909587 @default.
W3135340417 hasConcept C46141821 @default.
W3135340417 hasConcept C65956243 @default.
W3135340417 hasConcept C75473681 @default.
W3135340417 hasConceptScore W3135340417C121332964 @default.