Abstract
Barium ferrite nanoplates with the nominal composition BaFe12–xMxO19, where M = Sc, In, or Cr and x = 0–0.5, were hydrothermally synthesized at 160 and 240 °C. The incorporation of the substituent ions into the barium ferrite particles was confirmed with energy-dispersive X-ray spectroscopy. The effects of the temperature, the substituent ion, and the degree of the substitution on the final particle size and its distribution were studied with transmission electron microscopy. The magnetic properties of the synthesized particles were affected much more significantly by the particle size than by their chemical composition.
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