Precision AABB-type cyclocopolymers via alternating cyclocopolymerization of disiloxane-tethered divinyl monomers

Literature Information

Publication Date 2019-12-20
DOI 10.1039/C9PY01748H
Impact Factor 5.582
Authors

Jun Lu, Junjiang Li, Jinghang Wang, Min Du, Hewen Liu


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Abstract

Attempts to synthesize copolymers with structural sophistication and precision still remain elusive. Here, we report a facile synthesis of a new type of precision cyclocopolymer containing an AABB-type repeating chain sequence via the free radical cyclopolymerization of divinyl monomers bMA and bSt in the presence of ZnCl2. RAFT polymerization conditions can afford the AABB-type alternating cyclocopolymers with controlled molecular weight and narrow polydispersity. Kinetic research on the cyclocopolymerization shows that bMA and bSt polymerize in an equimolar ratio during the ZnCl2-modulated RAFT copolymerization process. The AABB-type alternating structures are verified by 2D 1H–13C COSY techniques and MALDI-TOF MS. The main-chain CH or CH2 NMR signals (both 1H and 13C NMR) in the cyclocopolymers suggest a chain sequence of a high order, and prove the absence of either the homopolymer structures or the intersecting ABAB-type structure. MALDI-TOF MS shows that the cyclocopolymer has a regularly repeating structure and a uniform repeating unit. In the absence of ZnCl2, bMA prefers to homopolymerize. Our work shows that the alternating cyclocopolymerization is a facile route to afford cyclocopolymers with a precision chain sequence and group spacing.

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