Synthesis of Double-Bonds-Containing Diblock Copolymers via RAFT Polymerization

Polyallenes that present internal double bonds are attractive platforms for the development of diverse functional materials. However, the controlled block copolymerization of allene derivatives with precise structure and designable architecture...

Recent Advances in Polyallenes: Preparation, Self-Assembly, and Stimuli-Responsiveness

Polyallenes, as a typical type of reactive polymers, are of great significance and have aroused widespread interest because they contain double bonds that can be post-modified into other functionalities to afford varieties of functional materials. This Minireview firstly highlights the recent advances in the preparation of polyallenes, including preparation of helical polyallenes through directly polymerization of chiral allene monomers or helix-sense-selective polymerization (HSSP) of achiral allene monomers, synthesis of 1,2-regulated polyallenes and 2,3-regulated polyallenes via selective polymerization of allene monomers, polymerization of allene monomers catalyzed by Ni(II)-terminated poly(3-hexylthiophene) (P3HT), and so on. Then, latest progress on the self-assembly and stimuli-responses of polyallene-based diblock, ABA and ABC triblock copolymers is summarized. We hope this Minireview will inspire more interest in developing polyallenes and encourage further advances in functional materials.

First polyallene-based well-defined amphiphilic diblock copolymer via RAFT polymerization

We report the first well-defined amphiphilic diblock copolymer via allene and vinyl monomers.

Highly 2,3-selective and fast living polymerization of alkyl-, alkoxy- and phenylallenes using nickel(ii) catalysts

A novel Ni(ii) catalyst was developed to initiate the polymerization of various allene monomers efficiently in a fast and living/controlled manner, and the thermodynamic and crystallization properties of the polymers were investigated.

“One-pot” aminolysis/thia-Michael addition preparation of well-defined amphiphilic PVDF-b-PEG-b-PVDF triblock copolymers: self-assembly behaviour in mixed solvents

Novel amphiphilic PVDF-based triblock copolymer (PVDF₅₀-b-PEG₁₃₆-b-PVDF₅₀) is synthesized using RAFT polymerization and a one-pot thia-Michael addition. Self-assembly of this ABA copolymer resulted in formation of original crystalline structures.

Hypoxia and temperature dual-stimuli-responsive random copolymers: facile synthesis, self-assembly and controlled release of drug

The micelles self-assembled from P(NIPAM-co-AA-co-NIA) copolymers presented hypoxia and temperature dual-stimuli-responsive properties and a controlled release of drug was achieved using them.

Hypoxia-responsive micelles self-assembled from amphiphilic block copolymers for the controlled release of anticancer drugs

Amphiphilic block copolymers poly(ethylene glycol)-block-poly(methacrylic acid-co-2-nitroimidazole methacrylate) (PEG-b-P(MAA-co-NIMA)) were synthesized by the combination of atom transfer radical polymerization (ATRP), hydrolysis and EDC reactions. These copolymers could self-assemble into spherical micelles in water. 2-Nitroimidazole (NI) groups presented hypoxia-responsive properties under hypoxia conditions. The hydrophobic NI groups could be converted into hydrophilic aminoimidazole (AI) groups, which would lead to the expansion of micelles. Moreover, the content of NI groups in the copolymers would affect the hydrophilic-hydrophobic balance and therefore influence the self-assembly behaviour of the copolymer and the morphologies of the micelles. The copolymer micelles were used as a drug delivery system for controlled release of anticancer drug doxorubicin (DOX). The in vitro cytotoxicity investigation revealed that the DOX-loaded micelles showed higher toxicity to hypoxic cells than to normoxic cells. As a result, the block copolymers are expected to be used as an intelligent carrier for hydrophobic drugs to treat hypoxia-associated diseases.

The secondary structures of PEG-functionalized random copolymers derived from (R)- and (S)- families of alkyne polycarbodiimides

Macromolecular micelles: a hydrophobic polyamidine backbone surrounded by hydrophilic PEG chains.