Fan-Chen Liu scite author profile

The complex potential energy surface for the unimolecular isomerization and dissociation of nitromethane (CH3NO2), including 10 CH3NO2 isomers, 46 interconversion transition states, and 16 major dissociation products, is probed theoretically at the G2MP2//B3LYP/6-311++G(2d,2p) level of theory. The geometries and relative energies for various stationary points are determined and are in good agreement with the available experimental values. Based on the calculated G2MP2 potential energy surface, the possible nitromethane unimolecular decomposition mechanism is discussed. It is shown that the most feasible decomposition channels for CH3NO2 are those that lead to 2CH3 + 2NO2, 2CH3O + 2NO, H2CO + HNO, and HCNO + H2O, respectively. Among them, 2CH3 and 2NO2 are produced by the direct C−N bond rupture of nitromethane, while the formation of the latter three products is initiated by CH3NO2 rearranging first to methyl nitrite or to aci-nitromethane. The C−N bond dissociation energy for nitromethane is calculated to be 61.9 kcal/mol, lower than the nitromethane → methyl nitrite and nitromethane → aci-nitromethane isomerization barriers by 2.7 and 2.1 kcal/mol, respectively. Our results suggest that the CH3NO2 isomerization pathways are kinetically disfavored in view of the relatively high activation barriers, in excess of 60 kcal/mol. The nitromethane decomposition occurs either via the C−N bond rupture or via concerted molecular eliminations.

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Raman and infrared spectral study of meso-sulfonatophenyl substituted porphyrins (TPPSn, n=1, 2A, 2O, 3, 4)

Zhang

Chen

et al. 2003

Spectrochimica Acta Part A: Molecular and Biomolecular Spectros

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Antisymmetric nonresonant vibrational Raman scattering

Liu¹

1991

J. Phys. Chem.

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Nuclear-spin-induced optical Cotton–Mouton effect in fluids

Chen

et al. 2009

Chemical Physics Letters

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Fan-Chen Liu

Sensitivity of Electrochemical Adlayer Structure to the Metal Crystallographic Orientation: Potential-Dependent Iodide Adsorption on Au(100) in Comparison with Other Low-Index Surfaces

Theoretical Study of the CH₃NO₂ Unimolecular Decomposition Potential Energy Surface

Raman and infrared spectral study of meso-sulfonatophenyl substituted porphyrins (TPPSn, n=1, 2A, 2O, 3, 4)

Antisymmetric nonresonant vibrational Raman scattering

Nuclear-spin-induced optical Cotton–Mouton effect in fluids

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Product

Resources

About

Fan-Chen Liu

Sensitivity of Electrochemical Adlayer Structure to the Metal Crystallographic Orientation: Potential-Dependent Iodide Adsorption on Au(100) in Comparison with Other Low-Index Surfaces

Theoretical Study of the CH3NO2 Unimolecular Decomposition Potential Energy Surface

Raman and infrared spectral study of meso-sulfonatophenyl substituted porphyrins (TPPSn, n=1, 2A, 2O, 3, 4)

Antisymmetric nonresonant vibrational Raman scattering

Nuclear-spin-induced optical Cotton–Mouton effect in fluids

Contact Info

Product

Resources

About

Theoretical Study of the CH₃NO₂ Unimolecular Decomposition Potential Energy Surface