Rotational Barriers in N-Benzhydrylformamides: An NMR and DFT Study

Rotational Barriers in N-Benzhydrylformamides: An NMR and DFT Study

N-Benzhydrylformamides are pharmacologically active compounds with anticonvulsant, enzyme-inducing, antihypoxic, and other types of biological activity. The conformational behavior of benzhydrylformamides is determined to a great extent by the presence of substituents at the nitrogen atom and in the...

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Bibliographic Details
Published in:Molecules (Basel, Switzerland) Vol. 28; no. 2; p. 535
Main Authors: Sadvakassova, Madina Zh, Khlebnikov, Andrei I, Bakibaev, Abdigali A, Kotelnikov, Oleg A, Erkassov, Rakhmetulla Sh, Yelubay, Madeniyet A, Issabayeva, Manar A
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 05-01-2023
MDPI
Subjects:
Anticonvulsants
Aromatic compounds
Biological activity
DFT calculations
Diphenyl methane
dynamic NMR
Energy
Hydrocarbons
N-benzhydrylformamide derivatives
Nitrogen
Rotation
rotational barriers
rotational barriers
N-benzhydrylformamide derivatives
DFT calculations
dynamic NMR
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Summary:N-Benzhydrylformamides are pharmacologically active compounds with anticonvulsant, enzyme-inducing, antihypoxic, and other types of biological activity. The conformational behavior of benzhydrylformamides is determined to a great extent by the presence of substituents at the nitrogen atom and in the -position(s) of the diphenylmethane moiety. Particularly, the NMR spectra of these compounds often contain two sets of signals originating from different orientations of the formyl group. With the use of the dynamic NMR method and DFT calculations, we investigated the internal rotations of aromatic and formyl fragments and estimated the corresponding rotational barriers in N-benzhydrylformamide (BHFA), N-methyl-N-benzhydrylformamide (BHFA-NMe), and in a series of -halogen-substituted N-benzhydrylformamides. It was found that the DFT method at M06-2X/6-311+G* level of theory satisfactorily reproduces the experimental barrier ΔG298≠(Formyl) of the formyl group rotation in BHFA-NMe. In BHFA, BHFA-NMe, and in the -halogen derivatives, the calculated ΔG298≠(Formyl) values are close to each other and lie within 20-23 kcal/mol. On the other hand, the -substituents significantly hinder the rotation of aryl fragment with ΔG298≠(Aryl) values varying from 2.5 kcal/mol in BHFA to 9.8 kcal/mol in -iodo-N-benzhydrylformamide.
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ISSN:1420-3049
1420-3049
DOI:10.3390/molecules28020535