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The Role of Bottlebrush Additives on the Structure of Block Copolymers in the Bulk and Thin Film
Published
Author(s)
Lee Richter, Daniel Sunday, Lucas Flagg, Julia Murphy, Peter Beaucage, Eliot Gann, Ruipeng Li
Abstract
Blending block copolymers (BCP) with additives is a useful approach for controlling BCP morphology and properties. In athermal systems blends of BCPs with polymer additives having very high molecular (Mn)mass generally result in macrophase separation. Bottlebrush polymers, which consist of a linear backbone and grafted sidechains, present an interesting alternative where the overall Mn of the system can be very large but the low Mn sidechains may drive miscibility with the BCP. In this study a bottlebrush with a polynorbornene backbone and polystyrene (PS) sidechains is blended with PS-b-poly(methyl methacrylate) (PS-b-PMMA) of varying Mn and the resulting morphologies are examined in both the bulk and thin films. Two different Mn of PS-b-PMMA were used in the bulk study, and the analysis of small angle X-ray scattering (SAXS) data shows that the blends were miscible and lamellar at all concentrations. This deviates from reference series of both low and high Mn linear polymer additives, which either showed morphological transitions from lamellae to cylinders (low Mn) or were immiscible at all mass fractions studied (high Mn). The relative molecular mass of the sidechain (NSC) and the corresponding component in the BCP (NA) dictate the distribution of the bottlebrush throughout the BCP, analogous to BCP/linear blends or grafted nanoparticles in a homopolymer matrix. The studies on thin films show a thickness dependence for bottlebrush mass fractions at or above 0.17, a behavior which may be driven by conformational changes of the bottlebrush upon confinement.
Richter, L.
, Sunday, D.
, Flagg, L.
, Murphy, J.
, Beaucage, P.
, Gann, E.
and Li, R.
(2024),
The Role of Bottlebrush Additives on the Structure of Block Copolymers in the Bulk and Thin Film, Macromolecules, [online], https://doi.org/10.1021/acs.macromol.4c00637, https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=957504
(Accessed October 10, 2025)