Post-coordination photoinitiated macromolecular thiol-ene coupling reaction for construction of metallo-supramolecular complexes of ABCL2-type miktoarm star copolymers and self-assembly of the complexes in water

Abstract

In this paper, we focus on investigating synthesis of metallo-supramolecular architectures of ABCL2-type miktoarm star copolymers PCL(-b-PDPA)-b-[(Tpyp)2-b-PMPC] (A, PCL; B, PDPA; C, PMPC; L, Tpyp) with ruthenium(II) (Ru(II)) ions and exploring self-assembly behavior of the complexes in water. Direct coordination of PCL(-b-PDPA)-b-[(Tpyp)2-b-PMPC] to Ru(II) ions and post-coordination photoinitiated macromolecular thiol-ene coupling reaction strategies were explored to construct Ru(II) coordination complexes, respectively. The result indicates that the post-coordination coupling reaction was more suitable strategy for constructing this kind of coordination complexes, which may avoid a larger steric hindrance generated from the coexistence of the three arms of PCL(-b-PDPA)-b-[(Tpyp)2-b-PMPC] leading to the disadvantageous influence on the formation of the bis(terpyridine)-Ru(II) complex. It should be mentioned that, however, although a photoinitiated macromolecular thiol-ene radical coupling reaction is facile, so far to achieve complete reaction of the target groups (i.e., alkene groups) has remained a challenge. Therefore, herein a post-coordination thiol-ene coupling reaction was explored carefully and an appropriate condition for the complete reaction of the alkene groups was given. Interestingly, the Ru(II) coordination complexes could self-assemble to form 2D platelets. This should be attributed to the unique metallo-supramolecular architecture. It is expected that the exploration can provide strategies for construction of complicated and exquisite metallo-supramolecular architectures and novel self-assemblies.