Issue 37, 2013

Collapsing nanoparticle-laden nanotubes

Abstract

We show how self-assembly of sticky nanoparticles can drive radial collapse of thin-walled nanotubes. Using numerical simulations, we study the transition as a function of the geometric and elastic parameters of the nanotube and the binding strength of the nanoparticles. We find that it is possible to derive a simple scaling law relating all these parameters, and estimate bounds for the onset conditions leading to the collapse of the nanotube. We also study the reverse process – the nanoparticle release from the folded state – and find that the stability of the collapsed state can be greatly improved by increasing the bending rigidity of the nanotubes. Our results suggest ways to strengthen the mechanical properties of nanotubes, but also indicate that the control of nanoparticle self-assembly on these nanotubes can lead to nanoparticle-laden responsive materials.

Graphical abstract: Collapsing nanoparticle-laden nanotubes

Article information

Article type
Paper
Submitted
18 رجب 1434
Accepted
30 رمضان 1434
First published
01 شوال 1434

Soft Matter, 2013,9, 8881-8886

Collapsing nanoparticle-laden nanotubes

J. A. Napoli, A. Šarić and A. Cacciuto, Soft Matter, 2013, 9, 8881 DOI: 10.1039/C3SM51495A

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