Electronic Excitations and Low-Energy Electron-Induced Scattering Studies of Acrylonitrile (CH₂CHCN)

Abstract: We report here theoretical investigations on structural, spectroscopic, and electron scattering for acrylonitrile (CH2CHCN), a molecule of importance in astrochemistry as well as the chemical industry. Quantum chemical calculations for ground and excited states are performed using density functional theory (DFT) and time-dependent-DFT methods, respectively. The results of geometry optimization and vibrational frequencies agree well with data available in the literature, while vertical excited singlet-state ene… Show more

“…As stated earlier, the low-energy feature in DEA is primarily caused by electron capture in one of the LUMOs as a one-particle shape resonance. The existing dissociation peak at 1.5 eV can be thus correlated with one-particle shape resonance observed at 1.4 eV in our previous cross-sectional study on acrylonitrile …”

“…Looking into the importance of the various anion formation channels of acrylonitrile, we attempt to compute here DEA cross-sections for the two most probable dissociation channels of acrylonitrile (CN – and C 3 N – ). This is our attempt to compute DEA for acrylonitrile which is in continuation of the work published earlier . Along with that, we have also calculated the rate coefficient of various processes.…”

“…The resonance positions and widths obtained here are used for the DEA cross-section calculations. More details about the R-matrix method are given in earlier publications, ,,− and the methodology employed for DEA cross-section calculations , is explained in brief below and can also be found in the report by Munro et al…”

“…Figure2c), while Figure2brepresents the π bonding nature of the highest occupied molecular orbital (HOMO). This LUMO π* antibonding above the CN bond is primarily responsible for resonances below 3 eV.34 Due to this attachment of electrons, energy is transferred from the π CN bond to the σ CC bond in nitriles as a result of cleavage over the C2−C4 bond17 (Figure2a).The present DEA on CN − shown in Figure3is calculated using bond dissociation energy B(C 2 H 3 −CN) = 5.4 eV,17 electron affinity (CN) = 3.82 eV,17 and vibrational frequency 882 cm −1 21. As seen in Figure3, the CN − ion starts appearing at a very low energy around 1.5 eV.…”

Theoretical Investigation of Dissociative Electron Attachment of Acrylonitrile

“…As stated earlier, the low-energy feature in DEA is primarily caused by electron capture in one of the LUMOs as a one-particle shape resonance. The existing dissociation peak at 1.5 eV can be thus correlated with one-particle shape resonance observed at 1.4 eV in our previous cross-sectional study on acrylonitrile …”

“…Looking into the importance of the various anion formation channels of acrylonitrile, we attempt to compute here DEA cross-sections for the two most probable dissociation channels of acrylonitrile (CN – and C 3 N – ). This is our attempt to compute DEA for acrylonitrile which is in continuation of the work published earlier . Along with that, we have also calculated the rate coefficient of various processes.…”

“…The resonance positions and widths obtained here are used for the DEA cross-section calculations. More details about the R-matrix method are given in earlier publications, ,,− and the methodology employed for DEA cross-section calculations , is explained in brief below and can also be found in the report by Munro et al…”

“…Figure2c), while Figure2brepresents the π bonding nature of the highest occupied molecular orbital (HOMO). This LUMO π* antibonding above the CN bond is primarily responsible for resonances below 3 eV.34 Due to this attachment of electrons, energy is transferred from the π CN bond to the σ CC bond in nitriles as a result of cleavage over the C2−C4 bond17 (Figure2a).The present DEA on CN − shown in Figure3is calculated using bond dissociation energy B(C 2 H 3 −CN) = 5.4 eV,17 electron affinity (CN) = 3.82 eV,17 and vibrational frequency 882 cm −1 21. As seen in Figure3, the CN − ion starts appearing at a very low energy around 1.5 eV.…”

Theoretical Investigation of Dissociative Electron Attachment of Acrylonitrile

“…However, to make calculations easier, this electron scattering problem was carried out with a fixed nuclei approach using the UK polyatomic R -matrix code driven by the Quantemol-N system . The R -matrix theory is a well-known scattering approach, and its application to electron–molecule scattering has been thoroughly discussed in Tennyson’s report and in our previous publications. − Hence, we present a brief description of the theoretical approach to avoid repetition.…”

Theoretical Investigation of Electron Impact Scattering on Imidazole

An ab initio study on the possibility of utilizing cationic and anionic cyanovinyl compounds as synthons