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dc.contributor.authorSteinbach, G.en
dc.contributor.authorSchreiber, M.en
dc.contributor.authorNissen, D.en
dc.contributor.authorAlbrecht, M.en
dc.contributor.authorNovak, E.en
dc.contributor.authorSánchez, P. A.en
dc.contributor.authorKantorovich, S. S.en
dc.contributor.authorGemming, S.en
dc.contributor.authorErbe, A.en
dc.date.accessioned2021-08-31T14:59:23Z-
dc.date.available2021-08-31T14:59:23Z-
dc.date.issued2019-
dc.identifier.citationField-responsive colloidal assemblies defined by magnetic anisotropy / G. Steinbach, M. Schreiber, D. Nissen, et al. — DOI 10.1103/PhysRevE.100.012608 // Physical Review E. — 2019. — Vol. 100. — Iss. 1. — 012608.en
dc.identifier.issn24700045-
dc.identifier.otherFinal2
dc.identifier.otherAll Open Access, Green3
dc.identifier.otherhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85070057050&doi=10.1103%2fPhysRevE.100.012608&partnerID=40&md5=174f5fcdfaf5851a64b2be3ace2ec4dc
dc.identifier.otherhttps://monarch.qucosa.de/api/qucosa%3A70641/attachment/ATT-0/m
dc.identifier.urihttp://elar.urfu.ru/handle/10995/101724-
dc.description.abstractParticle dispersions provide a promising tool for the engineering of functional materials that exploit self-assembly of complex structures. Dispersion made from magnetic colloidal particles is a great choice; they are biocompatible and remotely controllable among many other advantages. However, their dominating dipolar interaction typically limits structural complexity to linear arrangements. This paper shows how a magnetostatic equilibrium state with noncollinear arrangement of the magnetic moments, as reported for ferromagnetic Janus particles, enables the controlled self-organization of diverse structures in two dimensions via constant and low-frequency external magnetic fields. Branched clusters of staggered chains, compact clusters, linear chains, and dispersed single particles can be formed and interconverted reversibly in a controlled way. The structural diversity is a consequence of both the inhomogeneity and the spatial extension of the magnetization distribution inside the particles. We draw this conclusion from calculations based on a model of spheres with multiple shifted dipoles. The results demonstrate that fundamentally new possibilities for responsive magnetic materials can arise from interactions between particles with a spatially extended, anisotropic magnetization distribution. © 2019 American Physical Society.en
dc.format.mimetypeapplication/pdfen
dc.language.isoenen
dc.publisherAmerican Physical Societyen
dc.rightsinfo:eu-repo/semantics/openAccessen
dc.sourcePhys. Rev. E2
dc.sourcePhysical Review Een
dc.subjectBIOCOMPATIBILITYen
dc.subjectCOLLOIDSen
dc.subjectFUNCTIONAL MATERIALSen
dc.subjectMAGNETIC ANISOTROPYen
dc.subjectMAGNETIC MATERIALSen
dc.subjectMAGNETIC MOMENTSen
dc.subjectMAGNETIZATIONen
dc.subjectANISOTROPIC MAGNETIZATIONen
dc.subjectDIPOLAR INTERACTIONen
dc.subjectEXTERNAL MAGNETIC FIELDen
dc.subjectLINEAR ARRANGEMENTSen
dc.subjectMAGNETIZATION DISTRIBUTIONen
dc.subjectPARTICLE DISPERSIONen
dc.subjectSTRUCTURAL COMPLEXITYen
dc.subjectSTRUCTURAL DIVERSITYen
dc.subjectMAGNETIC BUBBLESen
dc.subjectANISOTROPYen
dc.subjectARTICLEen
dc.subjectCALCULATIONen
dc.subjectDIPOLEen
dc.subjectMAGNETIC FIELDen
dc.titleField-responsive colloidal assemblies defined by magnetic anisotropyen
dc.typeArticleen
dc.typeinfo:eu-repo/semantics/articleen
dc.typeinfo:eu-repo/semantics/publishedVersionen
dc.identifier.doi10.1103/PhysRevE.100.012608-
dc.identifier.scopus85070057050-
local.contributor.employeeSteinbach, G., Institute of Physics, Technische Universität Chemnitz, Chemnitz, 09107, Germany, Helmholtz-Zentrum Dresden-Rossendorf, Bautzner Landstrasse 400, Dresden, 01328, Germany, School of Physics, Georgia Institute of Technology, Atlanta, United States
local.contributor.employeeSchreiber, M., Institute of Physics, Technische Universität Chemnitz, Chemnitz, 09107, Germany
local.contributor.employeeNissen, D., Institute of Physics, University of Augsburg, Augsburg, 86159, Germany
local.contributor.employeeAlbrecht, M., Institute of Physics, University of Augsburg, Augsburg, 86159, Germany
local.contributor.employeeNovak, E., Ural Federal University, Lenin av. 51, Ekaterinburg, 620000, Russian Federation
local.contributor.employeeSánchez, P.A., Ural Federal University, Lenin av. 51, Ekaterinburg, 620000, Russian Federation
local.contributor.employeeKantorovich, S.S., Ural Federal University, Lenin av. 51, Ekaterinburg, 620000, Russian Federation, Computational Physics, Universität Wien, Sensengasse 8, Vienna, 1090, Austria
local.contributor.employeeGemming, S., Institute of Physics, Technische Universität Chemnitz, Chemnitz, 09107, Germany, Helmholtz-Zentrum Dresden-Rossendorf, Bautzner Landstrasse 400, Dresden, 01328, Germany
local.contributor.employeeErbe, A., Helmholtz-Zentrum Dresden-Rossendorf, Bautzner Landstrasse 400, Dresden, 01328, Germany
local.issue1-
local.volume100-
local.contributor.departmentInstitute of Physics, Technische Universität Chemnitz, Chemnitz, 09107, Germany
local.contributor.departmentHelmholtz-Zentrum Dresden-Rossendorf, Bautzner Landstrasse 400, Dresden, 01328, Germany
local.contributor.departmentInstitute of Physics, University of Augsburg, Augsburg, 86159, Germany
local.contributor.departmentUral Federal University, Lenin av. 51, Ekaterinburg, 620000, Russian Federation
local.contributor.departmentComputational Physics, Universität Wien, Sensengasse 8, Vienna, 1090, Austria
local.contributor.departmentSchool of Physics, Georgia Institute of Technology, Atlanta, United States
local.identifier.pure10290499-
local.identifier.puree8735f56-eef5-4063-94da-ad94b7979c2euuid
local.description.order012608-
local.identifier.eid2-s2.0-85070057050-
local.identifier.pmid31499847-
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