Issue 30, 2016

Showing particles their place: deterministic colloid immobilization by gold nanomeshes

Abstract

The defined immobilization of colloidal particles on a non-close packed lattice on solid substrates is a challenging task in the field of directed colloidal self-assembly. In this contribution the controlled self-assembly of polystyrene beads into chemically modified nanomeshes with a high particle surface coverage is demonstrated. For this, solely electrostatic interaction forces were exploited by the use of topographically shallow gold nanomeshes. Employing orthogonal functionalization, an electrostatic contrast between the glass surface and the gold nanomesh was introduced on a sub-micron scale. This surface charge contrast promotes a highly site-selective trapping of the negatively charged polystyrene particles from the liquid phase. AFM force spectroscopy with a polystyrene colloidal probe was used to rationalize this electrostatic focusing effect. It provides quantitative access to the occurring interaction forces between the particle and substrate surface and clarifies the role of the pH during the immobilization process. Furthermore, the structure of the non-close packed colloidal monolayers can be finely tuned by varying the ionic strength and geometric parameters between colloidal particles and nanomesh. Therefore one is able to specifically and selectively adsorb one or several particles into one individual nanohole.

Graphical abstract: Showing particles their place: deterministic colloid immobilization by gold nanomeshes

Supplementary files

Article information

Article type
Paper
Submitted
15 Apr 2016
Accepted
06 Jul 2016
First published
07 Jul 2016
This article is Open Access
Creative Commons BY license

Nanoscale, 2016,8, 14556-14564

Showing particles their place: deterministic colloid immobilization by gold nanomeshes

C. Stelling, A. Mark, G. Papastavrou and M. Retsch, Nanoscale, 2016, 8, 14556 DOI: 10.1039/C6NR03113G

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