Issue 13, 2022

Gold nanoparticle ring arrays from core–satellite nanostructures made to order by hydrogen bond interactions

Abstract

Polyethylene glycol-grafted gold nanoparticles are attached to silica nanoparticle cores via hydrogen bonding in a controlled fashion, forming well-defined core–satellite structures in colloidal solution. For separating these complex structures effectively from the parental nanoparticles, a straightforward and easy protocol using glass beads has been developed. The attached gold nanoparticles show unique surface mobility on the silica core surface, which allows for nanoparticle rearrangement into a 2D ring pattern surrounding the silica nanoparticle template when the core–satellite structures are cast to a planar surface. When etching away the silica core under conditions in which the polymer shell fixes the satellites to the substrate, highly ordered ring-shaped patterns of gold nanoparticles are formed. By variation of the size of the parental particles – 13 to 28 nm for gold nanoparticles and 39 to 62 nm for silica nanoparticles – a great library of different ring-structures regarding size and particle number is accessible with relative ease. The proposed protocol is low-cost and can easily be scaled up. It moreover demonstrates the power of hydrogen bonds in polymers as a dynamic anchoring tool for creating nanoclusters with rearrangement ability. We believe that this concept constitutes a powerful strategy for the development of new and innovative nanostructures.

Graphical abstract: Gold nanoparticle ring arrays from core–satellite nanostructures made to order by hydrogen bond interactions

Supplementary files

Article information

Article type
Paper
Submitted
01 Apr 2022
Accepted
22 Apr 2022
First published
23 Apr 2022
This article is Open Access
Creative Commons BY license

Nanoscale Adv., 2022,4, 2787-2793

Gold nanoparticle ring arrays from core–satellite nanostructures made to order by hydrogen bond interactions

Y. Cai, W. Peng and P. Vana, Nanoscale Adv., 2022, 4, 2787 DOI: 10.1039/D2NA00204C

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