Dilution effects on combined magnetic and electric dipole interactions: A study of ferromagnetic cobalt nanoparticles with tuneable interactions

Hod, Manuela; Dobroserdova, Alla; Samin, Sela; Dobbrow, C.; Schmidt, Annette; Gottlieb, Moshe; Kantorovich, Sofia S.

doi:10.1063/1.4995428

Cited by 5 publications

(3 citation statements)

References 57 publications

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“…For single domain particles, typical values for λ range from below one to eight. When λ is significantly larger than one, the magnetic particles will form clusters such as chains, rings and branched structures [33][34][35][36][37][38]. Their orientation is isotropically distributed, as long as no external magnetic field is applied.…”

Section: Magnetic Nanoparticlesmentioning

confidence: 99%

Polymer architecture of magnetic gels: a review

Weeber

Hermes

Schmidt

et al. 2018

J. Phys.: Condens. Matter

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In this review article, we provide an introduction to ferrogels, i.e. polymeric gels with embedded magnetic particles. Due to the interplay between magnetic and elastic properties of these materials, they are promising candidates for engineering and biomedical applications such as actuation and controlled drug release. Particular emphasis will be put on the polymer architecture of magnetic gels since it controls the degrees of freedom of the magnetic particles in the gel, and it is important for the particle-polymer coupling determining the mechanisms available for the gel deformation in magnetic fields. We report on the different polymer architectures that have been realized so far, and provide an overview of synthesis strategies and experimental techniques for the characterization of these materials. We further focus on theoretical and simulational studies carried out on magnetic gels, and highlight their contributions towards understanding the influence of the gels' polymer architecture.

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Section: Magnetic Nanoparticlesmentioning

confidence: 99%

Polymer architecture of magnetic gels: a review

Weeber

Hermes

Schmidt

et al. 2018

J. Phys.: Condens. Matter

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“…Многочисленные применения магнитных нано-и микрочастиц как функциональных магнитных элементов в биомедицине, электронике, катализе и т. д. порождают ряд проблем и требований к дизайну их формы и свойств [1][2][3][4][5]. В системах с большими массивами магнитных частиц (феррожидкости, феррогели, магнитные эластомеры, гранулированные магнитные композиты) важно влияние магнитного диполь-дипольного взаимодействия [6]. Поскольку диполь-дипольное взаимодействие убывает с расстоянием достаточно медленно (∝ r −3 ), это приводит к его нелокальности для трехмерных систем.…”

Section: Introductionunclassified

Ослабление Диполь-Дипольного Взаимодействия В Ансамблях Микросфер Кобальта С Немагнитным Ядром

Комогорцев,

Чеканова,

Шабанова

et al. 2022

Физика Твердого Тела

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Magnetic microspheres with nonmagnetic acrylic glass core were fabricated using electroless deposition. There are favorable conditions for magnetic flux closure within each particle. As a result, the dipole-dipole interaction in the powder of such microspheres is reduced drastically. This is the key difference between powders of magnetic microspheres and powders of full magnetic spherical particles witch behavior is significantly affected by the dipole-dipole interaction. The magnetic hysteresis in the cobalt microspheres with nonmagnetic core is significantly large then in the full cobalt particles produced using the same technique.

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“…give rise to a number of problems and requirements for the design of their shape and properties [1][2][3][4][5]. In systems with large arrays of magnetic particles (ferrofluids, ferrogels, magnetic elastomers, granular magnetic composites), the effect of magnetic dipoledipole interaction is important [6]. Since the dipoledipole interaction decreases rather slowly with distance (∝ r −3 ), this leads to its non-locality for three-dimensional systems.…”

Section: Introductionmentioning

confidence: 99%