Issue 56, 2016, Issue in Progress

Synthesis, structural properties, electrophilic substitution reactions and DFT computational studies of calix[3]benzofurans

Abstract

Calix[3]benzofurans have been synthesized by a modified TosMIC coupling reaction, followed by acid treatment and an intramolecular cyclization reaction with TMSI (trimethylsilyl iodide); X-ray analysis established the structures of two samples, both showing a cone conformation. 1H NMR spectroscopic analyses of the calix[3]benzofurans reveal that they can adopt drastically different conformations in solution and undergo very fast conformational changes relative to the NMR time scale. Calix[3]benzofuran 4a exists as two conformers, namely the cone and saddle forms, in a ratio of 83 : 17 at −50 °C. A series of calix[3]benzofuran derivatives was synthesized by electrophilic aromatic substitutions, such as bromination, formylation and acylation, to investigate the influence of the substituents on the conformations of the calix[3]benzofurans. 1H NMR spectral analyses of the acyl derivatives at room temperature indicated that these macrocycles exist as a mixture of two isomers that are slowly interconverted on the 1H NMR timescale. The conformational isomers of the calix[3]benzofurans and their derivatives obtained from DFT methods (based on the crystal structure analysis results) were used to estimate the total energies of the different conformations.

Graphical abstract: Synthesis, structural properties, electrophilic substitution reactions and DFT computational studies of calix[3]benzofurans

Supplementary files

Article information

Article type
Paper
Submitted
09 Mar 2016
Accepted
16 May 2016
First published
18 May 2016

RSC Adv., 2016,6, 50808-50817

Synthesis, structural properties, electrophilic substitution reactions and DFT computational studies of calix[3]benzofurans

Md. M. Islam, T. Akther, Y. Ikejiri, T. Matsumoto, J. Tanaka, S. Rahman, P. E. Georghiou, D. L. Hughes, C. Redshaw and T. Yamato, RSC Adv., 2016, 6, 50808 DOI: 10.1039/C6RA06219A

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