Litcius/Paper detail

Concentration-Driven Self-Assembly of PS-<i>b</i>-PLA Bottlebrush Diblock Copolymers in Solution

Bijal B. Patel, Tianyuan Pan, Yilong Chang, Dylan J. Walsh, Justin J. Kwok, Kyung Sun Park, Kush Patel, Damien Guironnet, Charles E. Sing, Ying Diao

2022ACS Polymers Au23 citationsDOIOpen Access PDF

Abstract

-PLA bottlebrush diblock copolymers in toluene. Three BBCP are synthesized, with side chains of number-averaged molecular weights of 4500 (PS) and 4200 g/mol (PLA) and total backbone degrees of polymerization of 100, 255, and 400 repeat units. The grafting density is one side chain per backbone repeat unit. With increasing concentration in solution, all three polymers progress through a similar structural transition: from dispersed, wormlike chains with concentration-dependent (decreasing) extension, through the onset of disordered PS/PLA compositional fluctuations, to the formation of a long-range ordered lamellar phase. With increasing concentration in the microphase-separated regimes, the domain spacing increases as individual chains partially re-extend due to block immiscibility. Increases in the backbone degree of polymerization lead to changes in the scattering profiles which are consistent with the increased segregation strength. Coarse-grained simulations using an implicit side-chain model are performed, and concentration-dependent self-assembly behavior is qualitatively matched to experiments. Finally, using the polymer with the largest backbone length, we demonstrate that lamellar phases develop a well-defined photonic band gap in solution, which can be tuned across the visible spectrum by varying polymer concentration.

Topics & Concepts

CopolymerMaterials sciencePolymerSide chainLamellar structurePolymerizationDegree of polymerizationPhase (matter)Small-angle X-ray scatteringPolymer chemistryScatteringChemical engineeringStatic light scatteringChemical physicsCrystallographyDynamic light scatteringChemistryNanotechnologyOrganic chemistryComposite materialNanoparticleOpticsPhysicsEngineeringBlock Copolymer Self-AssemblyAdvanced Polymer Synthesis and CharacterizationPolymer Surface Interaction Studies