Issue 17, 2016

Aromatic stabilization of functionalized corannulene cations

Abstract

The first comprehensive theoretical investigation of aromaticity in functionalized corannulene cations of general formula [CH3–C20H10]+ was accomplished. The experimentally known system [CH3-hub-C20H10]+ was augmented by two other possible isomers, namely, rim- and spoke-ones. Changes in aromaticity, when going from neutral corannulene to its functionalized cations, were monitored with the help of descriptors of different nature such as structure-based HOMA, topological PDI and FLU, and magnetic NICS. A highly efficient tool for analysis and visualization of delocalization and conjugation named ACID was also utilized. In the final step, a complete set of 1H and 13C chemical shifts was calculated and compared with the available experimental data. Conservation of aromaticity of 6-membered rings along with vanishing anti-aromatic character of central 5-membered rings was found to be the main reason for the exceptional stability of the hub-isomer. At the same time, functionalization of the corannulene moiety at the rim- or spoke-site resulted in dramatic elimination of aromaticity of 6-membered rings, whereas anti-aromatic character of the central ring remained. Altogether, it led to much lower stability of these isomers in comparison with that of the hub-one.

Graphical abstract: Aromatic stabilization of functionalized corannulene cations

Supplementary files

Article information

Article type
Paper
Submitted
15 Nov 2015
Accepted
05 Jan 2016
First published
07 Jan 2016

Phys. Chem. Chem. Phys., 2016,18, 11781-11791

Author version available

Aromatic stabilization of functionalized corannulene cations

J. Li and A. Yu. Rogachev, Phys. Chem. Chem. Phys., 2016, 18, 11781 DOI: 10.1039/C5CP07002C

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