Issue 33, 2024

Shape and size tunability of sheets of interlocked ring copolymers

Abstract

Mechanically bonded membranes of interlocked ring polymers are a significant generalization of conventional elastic sheets, where connectivity is provided by covalent bonding, and represent a promising class of topological meta-materials. In this context, two open questions regard the large-scale reverberations of the heterogeneous composition of the rings and the inequivalent modes of interlocking neighboring rings. We address these questions with Langevin dynamics simulations of chainmails with honeycomb-lattice connectivity, where the rings are block copolymers with two segments of different rigidity. We considered various combinations of the relative lengths of the two segments and the patterns of the over- and under-passes linking neighboring rings. We find that varying ring composition and linking patterns have independent and complementary effects. While the former sets the overall size of the chainmail, the latter defines the shape, enabling the selection of starkly different conformation types. Notably, one of the considered linking patterns favors saddle-shaped membranes, providing a first example of spontaneous negative Gaussian curvature in mechanically bonded sheets. The results help establish the extent to which mechanically bonded membranes can differ from conventional elastic ones, particularly for the achievable shape and size tunability.

Graphical abstract: Shape and size tunability of sheets of interlocked ring copolymers

Supplementary files

Article information

Article type
Paper
Submitted
07 Jun 2024
Accepted
29 Jul 2024
First published
30 Jul 2024
This article is Open Access
Creative Commons BY license

Soft Matter, 2024,20, 6595-6607

Shape and size tunability of sheets of interlocked ring copolymers

J. Luengo-Márquez, S. Assenza and C. Micheletti, Soft Matter, 2024, 20, 6595 DOI: 10.1039/D4SM00694A

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