Base-to-Base Organocatalytic Approach for One-Pot Construction of Poly(ethylene oxide)-Based Macromolecular Structures | Health & Environmental Research Online (HERO)

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Citation
Tags

HERO ID

4582444

Reference Type

Journal Article

Title

Base-to-Base Organocatalytic Approach for One-Pot Construction of Poly(ethylene oxide)-Based Macromolecular Structures

Author(s)

Xia, Y; Chen, Ye; Song, Q; Hu, S; Zhao, J; Zhang, G

Year

2016

Is Peer Reviewed?

Journal

Macromolecules
ISSN: 0024-9297
EISSN: 1520-5835

Volume

Issue

Page Numbers

6817-6825

DOI

10.1021/acs.macromol.6b01542

Web of Science Id

WOS:000384399100011

Abstract

A base-to-base organocatalytic approach has been developed for one-pot synthesis of poly(ethylene oxide)-block-polyesters and poly(ethylene oxide)-based polyurethanes. Ethylene oxide is first polymerized from a diol in the presence of a phosphazene superbase; then a thiourea is added to be deprotonated by the strongly basic alkoxide, which attenuates the basicity of the catalytic system and thus allows for controlled polymerization of the subsequently added cyclic ester from the polyether chain end or for step-growth polymerization of an added diisocyanate with the macrodiol which is free from anionic homopolymerization of the diisocyanate. The approach shows several advantages in addition to the one-pot facile character, e.g., a wide applicability toward different "second monmers" including (but not limited to) epsilon-caprolactone, l-lactide, and diisocyanate, and a low amount of "second catalyst" required as the deprotonated thiourea itself serves as the mildly or weakly basic organocatalyst. Impact of the N-substituent, i.e., pK(a) of the thiourea, on the catalytic efficacy of the deprotonated thiourea has also been preliminarily revealed.