Tejas Jani scite author profile

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 energies are extended to higher excited states as compared to earlier studies, including Rydberg and valence excitations. Quantum defect analysis and comparison of the theoretically predicted energies with earlier reported experimental works led to the confirmation of some spectral assignments and the revision of a few assignments. Vibrational frequencies calculated for the cationic ground state are used to tentatively assign vibrational bands appearing along with the Rydberg transitions. Triplet excited-state energies for which no data is available in the literature are reported here for the first time. Low-energy (0.1 to 20 eV) electron scattering calculations are performed using the ab initio R-matrix method. Several types of resonances are predicted in the energy-dependent elastic cross-section, most of which are in good agreement with earlier experimental or theoretical works, while a few new resonances are found above 6 eV. Additionally, calculations of eigenphase sum, differential, momentum transfer, electronic excitation, ionization, and total cross-sections are being reported for the first time. This work represents a comprehensive theoretical study of the electronically excited states as well as low-energy electron scattering of acrylonitrile, which would be useful for understanding its chemistry in the interstellar medium as well as industrial applications.

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Theoretical investigation of electron impact on formyl fluoride (HFCO)

Jani

Yadav

Prajapati

et al. 2020

Radiation Physics and Chemistry

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Electron impact scattering study on formyl fluoride (HFCO)

Jani

Yadav

Prajapati

et al. 2020

J. Phys.: Conf. Ser.

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Synopsis Electron impact scattering studies with organic compounds play a significant role in studies related to astrophysics and radiation physics. We present here electron impact scattering studies on formyl fluoride as no cross-sectional data is available to the best of our knowledge. Total scattering cross sections (TCS) on comparing with iso-electronic molecule reveals that at low energy molecular dipole moment plays a significant role in cross-section deviation and at high energy the tendency seems to be same in all the formyl series.

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Theoretical investigations of the electronic states and electron scattering cross-sections of thiazole (C3H3NS)

Jani¹,

Shastri²,

Vinodkumar³

et al. 2022

Journal of Electron Spectroscopy and Related Phenomena

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Tejas Jani

Structural, spectroscopic and electron collisional studies of isoxazole (C3H3NO)

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

Theoretical investigation of electron impact on formyl fluoride (HFCO)

Electron impact scattering study on formyl fluoride (HFCO)

Theoretical investigations of the electronic states and electron scattering cross-sections of thiazole (C3H3NS)

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Tejas Jani

Structural, spectroscopic and electron collisional studies of isoxazole (C3H3NO)

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

Theoretical investigation of electron impact on formyl fluoride (HFCO)

Electron impact scattering study on formyl fluoride (HFCO)

Theoretical investigations of the electronic states and electron scattering cross-sections of thiazole (C3H3NS)

Contact Info

Product

Resources

About

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