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Two-Stage Assembly of Mesocrystal Fibers with Tunable Diameters in Weak Magnetic Fields

Martin Kapuscinski, Pierre Munier, Mo Segad, Lennart Bergström

2020Nano Letters19 citationsDOIOpen Access PDF

Abstract

Controlling the morphology and crystallographic coherence of assemblies of magnetic nanoparticles is a promising route to functional materials. Time-resolved small-angle X-ray scattering (SAXS) was combined with microscopy and scaling analysis to probe and analyze evaporation-induced assembly in levitating drops and thin films of superparamagnetic iron oxide nanocubes in weak magnetic fields. We show that assembly of micrometer-sized mesocrystals with a cubic shape preceded the formation of fibers with a high degree of crystallographic coherence and tunable diameters. The second-stage assembly of aligned cuboidal mesocrystals into fibers was driven by the magnetic field, but the first-stage assembly of the oleate-capped nanocubes was unaffected by weak magnetic fields. The transition from 3D growth of the primary mesocrystals to the second stage 1D assembly of the elongated fibers was related to the size and field dependence of isotropic van der Waals and directional dipolar interactions between the interacting mesocrystals.

Topics & Concepts

Small-angle X-ray scatteringMaterials scienceSuperparamagnetismvan der Waals forceMagnetic fieldNanotechnologyMicrometerEvaporationScatteringChemical physicsCrystallographyChemistryOpticsMagnetizationQuantum mechanicsOrganic chemistryPhysicsMoleculeThermodynamicsCharacterization and Applications of Magnetic NanoparticlesMagnetic and Electromagnetic EffectsIron oxide chemistry and applications
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