Issue 30, 2019

Spontaneous in-flight assembly of magnetic nanoparticles into macroscopic chains

Abstract

Knowing the interactions controlling aggregation processes in magnetic nanoparticles is of strong interest in preventing or promoting nanoparticles’ aggregation at wish for different applications. Dipolar magnetic interactions, proportional to the particle volume, are identified as the key driving force behind the formation of macroscopic aggregates for particle sizes above about 20 nm. However, aggregates’ shape and size are also strongly influenced by topological ordering. 1-D macroscopic chains of several micrometer lengths are obtained with cube-shaped magnetic nanoparticles prepared by the gas-aggregation technique. Using an analytical model and molecular dynamics simulations, the energy landscape of interacting cube-shaped magnetic nanoparticles is analysed revealing unintuitive dependence of the force acting on particles with the displacement and explaining pathways leading to their assembly into long linear chains. The mechanical behaviour and magnetic structure of the chains are studied by a combination of atomic and magnetic force measurements, and computer simulation. The results demonstrate that [111] magnetic anisotropy of the cube-shaped nanoparticles strongly influences chain assembly features.

Graphical abstract: Spontaneous in-flight assembly of magnetic nanoparticles into macroscopic chains

Supplementary files

Article information

Article type
Paper
Submitted
17 Mar 2019
Accepted
17 May 2019
First published
20 May 2019
This article is Open Access
Creative Commons BY-NC license

Nanoscale, 2019,11, 14194-14202

Spontaneous in-flight assembly of magnetic nanoparticles into macroscopic chains

L. Balcells, I. Stanković, Z. Konstantinović, A. Alagh, V. Fuentes, L. López-Mir, J. Oró, N. Mestres, C. García, A. Pomar and B. Martínez, Nanoscale, 2019, 11, 14194 DOI: 10.1039/C9NR02314C

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