Architecture Effects in Complex Spherical Assemblies of (AB)-Type Block Copolymers

Overview

Journal ACS Macro Lett

Publisher American Chemical Society

Specialty Chemistry

Date 2022 Jun 2

PMID 35653677

Authors

Stephanie M Barbon

Jung-Ah Song

Duyu Chen

Cheng Zhang

Joshua Lequieu

Kris T Delaney

Athina Anastasaki

Manon Rolland

Glenn H Fredrickson

Morgan W Bates

Craig J Hawker

Christopher M Bates

Affiliations

Soon will be listed here.

Abstract

Molecular architecture plays a key role in the self-assembly of block copolymers, but few studies have systematically examined the influence of chain connectivity on tetrahedrally close-packed (TCP) sphere phases. Here, we report a versatile material platform comprising two blocks with substantial conformational asymmetry, A = poly(trifluoroethyl acrylate) and B = poly(dodecyl acrylate), and use it to compare the phase behavior of AB diblocks, ABA triblocks, and (AB) radial star copolymers with = 3 or 4. Each architecture forms TCP sphere phases at minority A block compositions ( < 0.5), namely, σ and A15, but with differences in the location of order-order phase boundaries that are not anticipated by mean-field self-consistent field theory simulations. These results expand the palette of polymer architectures that readily self-assemble into complex TCP structures and suggest important design considerations when targeting specific phases of interest.

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