This study presents the synthesis of CO2-based triblock copolymers with a central poly(ether carbonate) block surrounded by two polylactide blocks. By adjusting the CO2 pressure during copolymerization, the glass transition temperature of the central block can be fine-tuned, allowing the synthesis of poly(propylene oxide-co-propylene carbonate) with different carbonate versus ether contents. The resulting triblock copolymers exhibit improved ductility compared to the parent copolymers and outperform commercial polyolefins in terms of mechanical properties.
The synthesis of CO2-based triblock copolymers made of a central poly(ether carbonate) blocks flanked by two external polylactide blocks is described. Such triblock copolymers are obtained in one-pot by first CO2/epoxides copolymerization using a difunctional onium salt initiator in the presence of triethylborane, followed by ring-opening polymerization (ROP) of lactide (LA) assisted by diphenylurea (UPh), a hydrogen-bonding activator. Upon varying the pressure of CO2 during its copolymerization with propylene oxide (PO), the Tg of the central block could be fine-tuned allowing the synthesis of poly(propylene oxide -co-propylene carbonate) (PPPC) with various carbonate versus ether contents. These PPPC samples are then mechanically characterized; as their content in ether linkages progressively increased, a transition from brittle-to-ductile-to-elastomeric behavior could be seen. Upon appending two external enantiomeric poly(D-lactide) (PDLA) blocks to the central PPPC block, the generated PDLA-b-PPPC-b-PDLA triblock copolymers exhibit an impressive increase of their ductility compared to that of the parent statistical PPPC copolymers. When benchmarked against commercial polyolefins the latter CO2-based triblock copolymers outperform the mechanical performances of high density polyethylene (HDPE) and low density polyethylene (LDPE) by all accounts, their elasticity modulus, tensile strength, toughness and elongation at break being indeed superior to those of the polyolefins tested.
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