2015
DOI: 10.1039/c5sm00903k
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Tunable structures of mixtures of magnetic particles in liquid-crystalline matrices

Abstract: We investigate the self-organization of a binary mixture of similar sized rods and dipolar soft spheres by means of Monte-Carlo simulations. We model interparticle interactions by employing anisotropic Gay-Berne, dipolar and soft-sphere interactions. In the limit of vanishing magnetic moments we obtain a variety of fully miscible liquid crystalline phases including nematic, smectic and lamellar phases. For the magnetic mixture, we find that the liquid crystalline matrix supports the formation of orientationall… Show more

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Cited by 19 publications
(24 citation statements)
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“…Furthermore, the self-organization and assembly of the magnetic particles can be tuned by external fields giving rise to (infinite or finite) ferromagnetic chains in homogeneous magnetic fields, 47 formation of synchronized ferromagnetic layers in rotational fields, 48 cave structures in triaxial fields 49 with potential applications in biomedicine 50,51 and magneto-rheology. 52 Even though, an enormous effort has been devoted in mono-dispersed dipolar sphere systems, as it is shown above, there are a few simulation studies 22,23 that take into account explicitly the presence of an anisotropic medium (e.g. a LC matrix) in dipolar spheres suspensions.…”
Section: Two Years Ago Early Experiments In Lyotropics Havementioning
confidence: 99%
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“…Furthermore, the self-organization and assembly of the magnetic particles can be tuned by external fields giving rise to (infinite or finite) ferromagnetic chains in homogeneous magnetic fields, 47 formation of synchronized ferromagnetic layers in rotational fields, 48 cave structures in triaxial fields 49 with potential applications in biomedicine 50,51 and magneto-rheology. 52 Even though, an enormous effort has been devoted in mono-dispersed dipolar sphere systems, as it is shown above, there are a few simulation studies 22,23 that take into account explicitly the presence of an anisotropic medium (e.g. a LC matrix) in dipolar spheres suspensions.…”
Section: Two Years Ago Early Experiments In Lyotropics Havementioning
confidence: 99%
“…To the best of our knowledge, the study both of structure and dynamics of magnetic particle assemblies (clusters) in LC matrices using simulations is missing from the research literature. In earlier Monte Carlo simulations 22,23 we have focused on systems in which the diameter of spheres is equal or greater than the width of the rods; consequently, the magnetic particles form infinite or fragmented chains that organize into uniaxial and biaxial states. In the present work, we scrutinise the opposite direction, by studying both the structure and dynamics in mixtures of rods and relative small magnetic spheres (i.e.…”
Section: Two Years Ago Early Experiments In Lyotropics Havementioning
confidence: 99%
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