Vinyl Ether Cationic Polymerization

Uv irradiation triggered the degradation of diphenyliodonium iodide which was followed by the controlled polymerization of ipve mediated by long lived propagating species.

Vinyl ether cationic polymerization.

Macromolecules 26 1643 1649 1993. Poly vinyl ether s pves are useful materials of different applications. In this work we have developed a versatile and highly efficient initiation approach based on thienyl chloride derivatives with readily available starting materials for the living cationic polymerization of vinyl ethers. Living cationic polymerization of isobutyl vinyl ether by hydrogen chloride lewis acid initiating systems in the presence of salts.

Herein the unique polymerization is reviewed along with the history of ring expansion polymerization. We have achieved ring expansion living cationic polymerization of vinyl ethers using designer cyclic initiator 1 that contained a hemiacetal ester. Living cationic copolymerization of amide functional vinyl ethers with isobutyl vinyl ether ibve was achieved using sncl 4 in the presence of ethyl acetate at 0 c. Cationic polymerization of vinyl ethers controlled by visible light journal of the american chemical society photoinitiated cationic polymerizations are widely used in industrial processes.

The number average molecular weight of the obtained polymers increased in direct proportion to the monomer conversion with relatively low polydispersity and the amide functional monomer units were introduced almost quantitatively. This article is part of the themed collection. In situ direct nmr analysis of the growing species. The living cationic polymerization of benzyl vinyl ether bnve was achieved by the ch 3 ch o i bu ococh 3 1 etalcl 2 initiating system in the presence of added bases.

In the presence of 2 6 dimethylpyridine as an added base living cationic polymerization of isobutyl vinyl ether was achieved in n hexane at 0 to 40 c with the 1 isobutoxy ethyl acetate. A photoinitiating system for controlled cationic polymerization of isopropyl vinyl ether ipve was developed using diaryliodonium salts as the photoinitiator. Isospecific polymerization and recognition of chiral side chains titanium complexes of α α α α tetraaryl 1 3 dioxolane 4 5 dimethanol taddol derived from naturally abundant tartaric acid were demonstrated to function as highly effective. In conjunction with snbr 4 polymerization of isobutyl vinyl ether ibve smoothly proceeded to give quantitative conversion.