Selective molecular permeability induced by glass transition dynamics of semicrystalline polymer ultrathin films

Most polymers solidify below a glass transition temperature (Tg), which is important for the fabrication of polymeric materials. The glass transition dynamics (GTD) of polymers alters their physical properties and therefore the range of applications suitable for the particular materials. In this regard, most GTD studies were oriented to the thermodynamics of amorphous polymer systems, while little studies were known for semicrystalline polymers. Here, we focus on the glassy and crystalline properties of semicrystalline polymers such as poly(l-lactic acid) (PLLA) and envisage to control the nanostructure of free-standing PLLA ultrathin films (referred as “PLLA nanosheets”), via thermodynamic rearrangement of polymer chains entangled in a quasi-two-dimensional interface during the GTD process. The annealing process on the PLLA nanosheets (<100 nm thick) resulted in the formation of semicrystalline domains and microscopic apertures with polymer chains (∼100 nm in size). Such nanostructure surprisingly induce...