|
Authors
|
Grzyb, A.; Klos, J. S.; Erbaş, A.; Lang, M.; Paturej, J.
|
|
Title
|
Lamellar Domain Spacing of Copolymers with Nonlinear Block Architectures
|
|
Date
|
31.01.2025
|
|
Number
|
0
|
|
Abstract
|
Topological modification of block copolymer (BCP) conformations offers a promising approach for developing self-assembled periodic nanostructured materials with smaller domain sizes, which are essential for a range of technological applications. Cyclic polymers, with their inherently more compact conformations, present an effective strategy for achieving this miniaturization. In this work, through a combination of analytical theory and coarse-grained molecular dynamics simulations, we establish a relationship between different nonlinear topologies and the corresponding domain size of lamella-forming BCPs. Our investigations includes BCP architectures with one or two cyclic segments such as tadpoles, diblock and triblock 8-shaped polymers, and diblock nonconcatenated and concatenated rings. We demonstrate that the primary reduction in lamellar domain size is driven by the more compact arrangement of monomers in the cyclic architectures, with an additional contribution from the nonconcatenation of cyclic segments. This is corroborated by theoretical predictions for both domain size reduction and BCP conformations across different architectures. Moreover, consistent with theoretical expectations, the nonconcatenation of rings reduces the interpenetration of opposing brushes, thereby lowering friction between lamellae.
|
|
Publisher
|
American Chemical Society
|
|
Wikidata
|
|
|
Citation
|
Macromolecules 58 (2025) 1521-1536
|
|
DOI
|
https://doi.org/10.1021/acs.macromol.4c03106
|
|
Tags
|
|
