CORRELATION ANALYSIS OF IR, 1 H- AND 13 C-NMR SPECTRAL DATA OF N-ALKYL AND N-CYCLOALKYL CYANOACETAMIDES

• Main Authors: Aleksandar D. Marinković, Jelena Nedeljković, Dušan Ž. Mijin, Nataša Ilić, Slobodan D. Petrović
• Format: Article
• Language: English
• Published: Association of the Chemical Engineers of Serbia 2011-09-01
• Series: Chemical Industry and Chemical Engineering Quarterly
• Subjects: N-alkyl cyanoacetamides; N-cycloalkyl cyanoacetamide; LFER analysis; IR and NMR spectra; SCS shift; Hammett equation.
• Online Access: http://www.ache.org.rs/CICEQ/2011/No3/CICEQ_Vol17_%20No3_pp307-314_Jul-Sep_2011.pdf
• ISSN: 1451-9372

Linear free energy relationships (LFER) were applied to the IR, 1H- and 13C--NMR spectral data in N-alkyl and N-cycloalkyl cyanoacetamides. N-alkyl and N-cycloalkyl cyanocetamides were synthesized from corresponding amine and ethyl cyanoacetate. A number of substituents were employed for alkyl substitution, and fairly good correlations were obtained, using simple Hammett equation. In N-alkyl and N-cycloalkyl cyanoacetamides substituent cause SCS of N-H hydrogen primarily by steric interaction, polar subtituent effect influences SCS shift of C=O carbon, while steric effect of N-alkyl substituent causes IR stretching frequencies of N-H, C=O and CN group. The conformations of investigated compounds have been studied by the use of semiempirical PM6 method, and together with LFER analysis, give a better insight into the influence of such a structure on the transmission of electronic substituent effects. Negative ρ values for several correlations (reverse substituent effect) were found.