AI Article Synopsis
- Bottlebrush block polymers feature densely grafted side chains from a backbone, allowing for large ordered morphologies suitable for applications like photonic crystals.
- The study focused on creating a library of 50 triblock terpolymers (PLA-PEP-PS) through advanced polymerization techniques, leading to structures with complex phase behaviors.
- Results indicated diverse mesoscopic structures and tunable unit cell dimensions, showcasing the potential of multiblock bottlebrushes for varied material applications.
Article Abstract
Bottlebrush block polymers, characterized by densely grafted side chains extending from a backbone, have recently garnered significant attention. A particularly attractive feature is the accessibility of ordered morphologies with domain spacings exceeding several hundred nanometers, a capability that is challenging to achieve with linear polymers. These large morphologies make bottlebrush block polymers promising for various applications, such as photonic crystals. However, the structures observed in AB diblock bottlebrushes are generally limited to simple lamellae and cylindrical phases, which restricts their use in many applications. In this study, we synthesized a library of 50 ABC bottlebrush triblock terpolymers, poly(DL-lactide)--poly(ethylene--propylene)--polystyrene (PLA-PEP-PS), spanning a wide range of compositions using ring-opening metathesis polymerization (ROMP) of norbornene-functionalized macromonomers. This constitutes a frustrated system, in that the mandatory internal interfaces (PLA/PEP and PEP/PS) have larger interfacial energies than PLA/PS. We systematically explored phase behavior using small-angle X-ray scattering (SAXS) and transmission electron microscopy (TEM). Morphological characterization revealed a series of intriguing mesoscopic structures, including layered microstructures, core-shell hexagonally packed cylinders (CSHEX, plane group 6), alternating tetragonally packed cylinders (ATET, plane group 4), and rectangular centered cylinders-in-undulating-lamellae (RCCUL, plane group 2). Adjustments in molecular weight resulted in a wide range of unit cell dimensions (exemplified by RCCUL), from 40 nm to over 130 nm. This work demonstrates that multiblock bottlebrushes offer promising opportunities for developing materials with diverse structures and a broad range of domain dimensions.
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