Poly(ether)s derived from oxa-Michael polymerization: a comprehensive review

Karin Ratzenböck; Susanne Maria Fischer; Christian Slugovc

doi:10.1007/s00706-023-03049-4

Poly(ether)s derived from oxa-Michael polymerization: a comprehensive review

Karin Ratzenböck, Susanne Maria Fischer, Christian Slugovc^*

^*Korrespondierende/r Autor/-in für diese Arbeit

Institut für Chemische Technologie von Materialien (6380)

Publikation: Beitrag in einer Fachzeitschrift › Review eines Fachbereichs (Review article) › Begutachtung

Abstract

Poly(ether)s represent an important class of polymers and are typically formed by ring-opening polymerization, Williamson ether synthesis, or self-condensation of alcohols. The oxa-Michael reaction presents another method to form poly(ether)s with additional functional groups in the polymer backbone starting from di- or triols and electron deficient olefins such as acrylates, sulfones, or acrylamides. However, research on oxa-Michael polymerization is still limited. Herein, we outline the principles of the oxa-Michael polymerization and focus on the synthesis and preparation of poly(ether-sulfone)s, poly(ether-ester)s, poly(ether)s, and poly(ether-amide)s. Further, challenges as well as future perspectives of the oxa-Michael polymerization are discussed.

Originalsprache	englisch
Seiten (von - bis)	443-458
Seitenumfang	16
Fachzeitschrift	Monatshefte für Chemie - Chemical Monthly
Jahrgang	154
Ausgabenummer	5
Frühes Online-Datum	29 März 2023
DOIs	https://doi.org/10.1007/s00706-023-03049-4
Publikationsstatus	Veröffentlicht - Mai 2023

ASJC Scopus subject areas

Allgemeine Chemie

Fields of Expertise

Advanced Materials Science

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10.1007/s00706-023-03049-4Lizenz: CC BY 4.0

s00706-023-03049-4Endgültige, publizierte Fassung, 1,18 MBLizenz: CC BY 4.0

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Verknüpfung zur Publikation in Scopus

CD-Labor für Organokatalyse in der Polymerisation
Slugovc, C.
1/07/19 → 30/06/26
Projekt: Forschungsprojekt

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abstract = "Poly(ether)s represent an important class of polymers and are typically formed by ring-opening polymerization, Williamson ether synthesis, or self-condensation of alcohols. The oxa-Michael reaction presents another method to form poly(ether)s with additional functional groups in the polymer backbone starting from di- or triols and electron deficient olefins such as acrylates, sulfones, or acrylamides. However, research on oxa-Michael polymerization is still limited. Herein, we outline the principles of the oxa-Michael polymerization and focus on the synthesis and preparation of poly(ether-sulfone)s, poly(ether-ester)s, poly(ether)s, and poly(ether-amide)s. Further, challenges as well as future perspectives of the oxa-Michael polymerization are discussed.",

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N2 - Poly(ether)s represent an important class of polymers and are typically formed by ring-opening polymerization, Williamson ether synthesis, or self-condensation of alcohols. The oxa-Michael reaction presents another method to form poly(ether)s with additional functional groups in the polymer backbone starting from di- or triols and electron deficient olefins such as acrylates, sulfones, or acrylamides. However, research on oxa-Michael polymerization is still limited. Herein, we outline the principles of the oxa-Michael polymerization and focus on the synthesis and preparation of poly(ether-sulfone)s, poly(ether-ester)s, poly(ether)s, and poly(ether-amide)s. Further, challenges as well as future perspectives of the oxa-Michael polymerization are discussed.

AB - Poly(ether)s represent an important class of polymers and are typically formed by ring-opening polymerization, Williamson ether synthesis, or self-condensation of alcohols. The oxa-Michael reaction presents another method to form poly(ether)s with additional functional groups in the polymer backbone starting from di- or triols and electron deficient olefins such as acrylates, sulfones, or acrylamides. However, research on oxa-Michael polymerization is still limited. Herein, we outline the principles of the oxa-Michael polymerization and focus on the synthesis and preparation of poly(ether-sulfone)s, poly(ether-ester)s, poly(ether)s, and poly(ether-amide)s. Further, challenges as well as future perspectives of the oxa-Michael polymerization are discussed.

KW - Alcohols

KW - Macromolecules

KW - Michael addition

KW - Oligomers

KW - Polyaddition

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Poly(ether)s derived from oxa-Michael polymerization: a comprehensive review

Abstract

ASJC Scopus subject areas

Fields of Expertise

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CD-Labor für Organokatalyse in der Polymerisation

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