Magnetically Induced Pattern Formation in Phase Separating Polymer-Solvent–Nanoparticle Mixtures - Concepedia

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Magnetically Induced Pattern Formation in Phase Separating Polymer-Solvent–Nanoparticle Mixtures

18

Citations

19

References

2010

Year

Rakchanok Rungsawang, Joakim da Silva, Chengpei Wu, Easan Sivaniah, Adrian Ionescu, C. H. W. Barnes, Nicholas J. Darton

Physical Review Letters

NanoparticlesMagnetic PropertiesEngineeringLow-dimensional MagnetismPolymer-based MagnetMagnetic ResonanceChemistryMagnetoelastic MaterialsMagnetic MaterialsFerrofluidTopological MagnetismMagnetismMicromagneticsPerpendicular Magnetic FieldPolymer-solvent Phase SeparationPhase SeparationMagnetic Thin FilmsBiophysicsPolymer ChemistryInduced Pattern FormationMaterials ScienceMagnetic SystemsMagnetic MaterialMicro-magnetic ModelingMagnetic MediumMolecule-based MagnetNatural SciencesSelf-assemblyPolymer SciencePermanent Magnetic StructuresFunctional Materials

Abstract

Permanent magnetic structures with controlled dimension and architecture (labyrinthine, hexagonal, or dispersed columnar) are formed in a partially miscible ferrofluid-nonferrofluid mixture under the influence of a perpendicular magnetic field. The origin of the permanent structures, which have characteristic lateral dimensions ranging from 1 to 10 μm, is the repartitioning of the ferrofluid carrier solvent into the nonferrofluid polymeric phase. This polymer-solvent phase separation under a magnetic field leads to departures from the expected final dimension of the magnetically stabilized ferrofluid droplet sizes.

References

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