QUANTUM-CHEMICAL INVESTIGATION OF THE EFFECT OF SOLVENT POLARITY ON THE DIRECTION OF SULFONATION OF PYRROLE
DOI:
https://doi.org/10.1007/7697Keywords:
quantum-chemical calculations, B3LYP/6-31G(d) method, positional selectivity of substitution, sulfonation of pyrroleAbstract
The relative stability of the isomeric σ-complexes formed in the sulfonation of pyrrole at the α- or β− position (the α-isomer is energetically more favorable) does not agree with the experimentally established positional selectivity of substitution (the formation of β-pyrrolesulfonic acid). However, quantum-chemical calculations of the energy parameters for the reaction of pyrrole and SO3 with due regard to the solvation effect in the model solvent methylene chloride (ε = 8.93) lead to the conclusion that the calculated activation energy of the rearrangement to the more favorable β-pyrrolesulfonic acid for the less favorable β-isomer of the σ-complex is lower than on the path to the formation of the α-pyrrolesulfonic acid. It was shown that the significant increase in the polarity of the model medium in the transition to DMSO (ε = 46.7) does not lead to substantial change in the energy parameters of the reaction. The explanation for the positional selectivity during the sulfonation of pyrrole using Py⋅SO3, according to previous data, involves the participation of the pyridine in the transformation of the σ-complexes into the products. The calculations were made by the B3LYP/6-31G(d) and HF/3-21+G methods using the model of overlapping spheres to take account of solvation.How to Cite
Belen'kii, L. I.; Nesterov, I. D.; Chuvylkin, N. D.. Chem. Heterocycl. Compd. 2007, 43, 28. [Khim. Geterotsikl. Soedin. 2007, 34.]
For this article in the English edition see DOI 10.1007/s10593-007-0004-2
