Helical Phase Driven by Solvent Evaporation in Self-Assembly of Poly(4-vinylpyridine)-block-poly(l-lactide) Chiral Block Copolymers

Abstract

A series of chiral block copolymers (BCPs*), poly(4-vinylpyridine)-block-poly(l-lactide) (P4VP–PLLA), are synthesized through atom transfer radical polymerization and living ring-opening polymerization. Except for typical microphase-separated phases, such as lamellae (L) and hexagonally packed cylinders (HC), a helical phase (H*) with hexagonally packed PLLA helices in a P4VP matrix can be found in the self-assembly of P4VP–PLLA BCPs*, reflecting the chirality effect on BCP self-assembly. The H* formation is strongly dependent upon the solvent evaporation rate for solution casting at which fast evaporation gives the H* phase and slow evaporation results in the HC phase. To further examine the metastability of the H* phase associated with the dynamics of BCP* chains during self-assembly, P4VP–PLLA BCPs* having different molecular weights at a constant composition are utilized for self-assembly. Under the same evaporation rate for solution casting, the H* phase can be obtained in high-molecular-weight P4VP–...