Versatile approach to activation of alkoxyamine homolysis by 1,3-dipolar cycloaddition for efficient and safe nitroxide mediated polymerization
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Федеральное государственное бюджетное учреждение науки
Новосибирский институт органической химии им. Н.Н. Ворожцова
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В журнале Chemical Communications, 55, 190-193, 2019  (IF 6,29) опубликована статья с участием сотрудников Института:  Марии Еделевой , Дмитрия Морозова,  Дмитрия Пархоменко, Юлии Полиенко, Игря Кирилюк и Елены Багрянской

Versatile approach to activation of alkoxyamine homolysis by 1,3-dipolar cycloaddition for efficient and safe nitroxide mediated polymerization

Mariya Edeleva, Denis Morozov, Dmitriy Parkhomenko, Yulia Polienko, Anna Iurchenkova, Igor Kirilyuk and Elena Bagryanskaya

Chem. Commun., 2019, V.55, N 2, Pp 190-193

First published: 19 February 2019


 https://doi.org/10.1039/C8CC08541B

Chem comm

 

Abstract

Because alkoxyamines are employed in a number of important applications, such as nitroxide-mediated polymerization, radical chemistry, redox chemistry, and catalysis, research into their reactivity is especially important. Typically, the rate of alkoxyamine homolysis is strongly dependent on temperature. Nonetheless, thermal regulation of such reactions is not always optimal. This review describes various ways to reversibly change the rate of C–ON bond homolysis of alkoxyamines at constant temperature. The major methods influencing C–ON bond homolysis without alteration of temperature are protonation of functional groups in an alkoxyamine, formation of metal–alkoxyamine complexes, and chemical transformation of alkoxyamines. Depending on the structure of an alkoxyamine, these approaches can have a significant effect on the homolysis rate constant, by a factor of up to 30, and can shorten the half-lifetime from days to seconds. These methods open new prospects for the application of alkoxyamines in biology and increase the safety of (and control over) the nitroxide-mediated polymerization method. View Full-Text

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