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Cobalt Ferrite Nanorods Synthesized with a Facile "Green" Method in a Magnetic Field.

Alexander L KwiatkowskiPetr V ShvetsIvan S TimchenkoDarya E KesselElizaveta D ShipkovaKonstantin Igorevich MaslakovIvan A KuznetsovDmitry A MuravlevOlga E PhilippovaAndrey V Shibaev
Published in: Nanomaterials (Basel, Switzerland) (2024)
We report a new facile method for the synthesis of prolate cobalt ferrite nanoparticles without additional stabilizers, which involves a co-precipitation reaction of Fe 3+ and Co 2+ 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 CoFe 2 O 4 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 CoFe 2 O 4 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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