Hydroxyl radical reaction with monuron

On the example of monuron, aromatic ring hydroxylation reactions were studied by Density Functional Theory calculations. In order to model the aqueous media the Solvation Model Density technique was used. Based on the relatively low activation energies of hydroxyl radical additions to ipso-, ortho-...

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Bibliographic Details
Main Authors: Mile Viktória
Harsányi Ildikó
Kovács Krisztina
Földesi Tamás
Pápai Imre
Takács Erzsébet
Wojnárovits László
Corporate Author: International Symposium on Analytical and Environmental Problems (21.) (2015) (Szeged)
Format: Book part
Published: 2015
Series:Proceedings of the International Symposium on Analytical and Environmental Problems 21
Kulcsszavak:Szerves kémia
Online Access:http://acta.bibl.u-szeged.hu/56008
Description
Summary:On the example of monuron, aromatic ring hydroxylation reactions were studied by Density Functional Theory calculations. In order to model the aqueous media the Solvation Model Density technique was used. Based on the relatively low activation energies of hydroxyl radical additions to ipso-, ortho- and meta-positions of the benzene ring (19-42 kJ mol−1 ) and also the Gibbs free energies ((-16)-(-41) kJ mol−1 ) of reactions, hydroxyl radical addition to any of these positions may take place. However, according to the calculations the ortho-addition is preferred in agreement with the experimental results. In these reactions hydroxycyclohexadienyl type radicals form. The first step in the mechanism of para-reaction is OH/Cl substitution without cyclohexadienyl type intermediate. The results of theoretical calculations here are also in agreement with the experimental results which show that the hydroxyl radical reaction with monuron in 40% results in Cl elimination.
Physical Description:388-391
ISBN:978-963-306-411-5