Issue 5, 2023

Building blocks of non-Euclidean ribbons: size-controlled self-assembly via discrete frustrated particles

Abstract

Geometric frustration offers a pathway to soft matter self-assembly with controllable finite sizes. While the understanding of frustration in soft matter assembly derives almost exclusively from continuum elastic descriptions, a current challenge is to understand the connection between microscopic physical properties of misfitting “building blocks” and emergent assembly behavior at the mesoscale. We present and analyze a particle-based description of what is arguably the best studied example for frustrated soft matter assembly, negative-curvature ribbon assembly, observed in both assemblies of chiral surfactants and shape-frustrated nanoparticles. Based on our particle model, known as saddle wedge monomers, we numerically test the connection between microscopic shape and interactions of the misfitting subunits and the emergent behavior at the supra-particle scale, specifically focussing on the propagation and relaxation of inter-particle strains, the emergent role of extrinsic shape on frustrated ribbons and the equilibrium regime of finite width selection. Beyond the intuitive role of shape misfit, we show that self-limitation is critically dependent on the finite range of cohesive interactions, with larger size finite assemblies requiring increasing short-range interparticle forces. Additionally, we demonstrate that non-linearities arising from discrete particle interactions alter self-limiting behavior due to both strain-softening in shape-flattened assembly and partial yielding of highly strained bonds, which in turn may give rise to states of hierarchical, multidomain assembly. Tracing the regimes of frustration-limited assembly to the specific microscopic features of misfitting particle shapes and interactions provides necessary guidance for translating the theory of size-programmable assembly into design of intentionally-frustrated colloidal particles.

Graphical abstract: Building blocks of non-Euclidean ribbons: size-controlled self-assembly via discrete frustrated particles

Article information

Article type
Paper
Submitted
15 Here 2022
Accepted
02 Gen. 2023
First published
03 Gen. 2023

Soft Matter, 2023,19, 858-881

Author version available

Building blocks of non-Euclidean ribbons: size-controlled self-assembly via discrete frustrated particles

D. M. Hall, M. J. Stevens and G. M. Grason, Soft Matter, 2023, 19, 858 DOI: 10.1039/D2SM01371A

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