Predicted Reversal in N-Methylazepine/N-Methyl-7-azanorcaradiene Equilibrium Upon Formation of Their N-Oxides

Predicted Reversal in N-Methylazepine/N-Methyl-7-azanorcaradiene Equilibrium Upon Formation of Their N-Oxides

Density functional calculations and up to five different basis sets have been applied to the exploration of the structural, enthalpy and free energy changes upon conversion of the azepine to the corresponding N-oxide. Although it is well known that azepines are typically much more stable than their...

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Veröffentlicht in:Molecules (Basel, Switzerland) Switzerland), 2020-10, Vol.25 (20), p.4767
Hauptverfasser: Fournier, René, Green, Alexa R, Greenberg, Arthur, Lee-Ruff, Edward, Liebman, Joel F, Rágyanszki, Anita
Format: Artikel
Sprache:eng
Schlagworte:
amine N-oxides
antiaromaticity
Aromaticity
Azepines - chemistry
Chemical equilibrium
Energy
Equilibrium
Free energy
Hydrocarbons
Isomerism
Isomers
Models, Molecular
N-Methyl-7-azanorcaradiene
N-methylazepine
N-methylpyrrole
Oxides
Oxides - chemistry
Quantum Theory
Thermodynamics
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Zusammenfassung:Density functional calculations and up to five different basis sets have been applied to the exploration of the structural, enthalpy and free energy changes upon conversion of the azepine to the corresponding N-oxide. Although it is well known that azepines are typically much more stable than their 7-azanorcaradiene valence isomers, the stabilities are reversed for the corresponding N-oxides. Structural, thermochemical as well as nucleus-independent chemical shift (NICS) criteria are employed to probe the potential aromaticity, antiaromaticity and nonaromaticity of N-methylazepine, its 7-azanorcaradiene valence isomer. For the sake of comparison, analogous studies are performed on N-methylpyrrole and its N-oxide.
ISSN:1420-3049
1420-3049
DOI:10.3390/molecules25204767