Quantum-chemical simulation of unit process for the oxidation reactions of ethylene and its derivatives invoving  1 O 2  ( 1 Δg)

N. N. Breslavskaya; S. P. Dolin; A. A. Markov; T. Yu. Mikhailova; N. I. Moiseeva; A. E. Gekhman

doi:10.1134/S0036023616100041

Quantum-chemical simulation of unit process for the oxidation reactions of ethylene and its derivatives invoving ¹O₂ (¹Δg)

Autores: Breslavskaya N.N.¹, Dolin S.P.¹, Markov A.A.¹, Mikhailova T.Y.¹, Moiseeva N.I.¹, Gekhman A.E.¹
Afiliações:
1. Kurnakov Institute of General and Inorganic Chemistry
Edição: Volume 61, Nº 10 (2016)
Páginas: 1257-1261
Seção: Theoretical Inorganic Chemistry
URL: https://journals.rcsi.science/0036-0236/article/view/166808
DOI: https://doi.org/10.1134/S0036023616100041
ID: 166808

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The results of simulation of oxidation reactions of ethylene derivatives with different substituents (F atoms, CH₃O and CH₃ groups) and butadiene molecule with participation of ¹O₂ (¹Δg) have shown the possibility to realize different routes for the majority of the considered reactions. The largest product variety is obtained for butadiene and CH₃ derivatives of ethylene. For butadiene, along with 1,2-cycloaddition reactions resulting in four-membered dioxetane (which is realized in all cases), the possibility to form six-membered cyclic epidioxides (1,4-addition) and diepoxide products with two three-membered rings (epoxidation) has been found. The formation of hydroperoxide forms along with 1,2-addition reactions is also possible for all CH₃ derivatives of ethylene. Formation conditions and relative stability of the noted products have been analyzed for each case and certain features of the revealed reaction pathways with the transfer of two oxygen atoms have been discussed.

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Quantum-chemical simulation of unit process for the oxidation reactions of ethylene and its derivatives invoving ¹O₂ (¹Δg)

Texto integral

Resumo

Sobre autores

N. Breslavskaya

S. Dolin

A. Markov

T. Mikhailova

N. Moiseeva

A. Gekhman

Arquivos suplementares

Quantum-chemical simulation of unit process for the oxidation reactions of ethylene and its derivatives invoving 1O2 (1Δg)

Texto integral

Resumo

Sobre autores

N. Breslavskaya

S. Dolin

A. Markov

T. Mikhailova

N. Moiseeva

A. Gekhman

Arquivos suplementares

Quantum-chemical simulation of unit process for the oxidation reactions of ethylene and its derivatives invoving ¹O₂ (¹Δg)