Cobalt Ferrite Nanorods Synthesized with a Facile “Green” Method in a Magnetic Field
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Nanomaterials
Abstract
We report a new facile method for the synthesis of prolate cobalt ferrite nanoparticles
without additional stabilizers, which involves a co-precipitation reaction of Fe3+ and Co2+ ions in a
static magnetic field. The magnetic field is demonstrated to be a key factor for the 1D growth of cobalt
ferrite nanocrystals in the synthesis. Transmission electron microscopy (TEM), X-ray diffraction
(XRD), and Raman spectroscopy are applied to characterize the morphology and structure of the
obtained nanoparticles. According to TEM, they represent nanorods with a mean length of 25 nm
and a diameter of 3.4 nm that have a monocrystalline structure with characteristic plane spacing of
2.9 Å. XRD and Raman spectroscopy confirm the spinel CoFe2O4 structure of the nanorods. After
aging, the synthesized nanorods exhibit maximum saturation magnetization and coercivity equal
to 30 emu/g and 0.3 kOe, respectively. Thus, the suggested method is a simple and “green” way
to prepare CoFe2O4 nanorods with high aspect ratios and pronounced magnetic properties, which
are important for various practical applications, including biomedicine, energy storage, and the
preparation of anisotropic magnetic nanocomposites.
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Cobalt Ferrite Nanorods Synthesized with a Facile “Green” Method in a Magnetic Field/Kwiatkowski A.L. [et al.] //Nanomaterials - 2024 - №14(541) - pp. 1-14..