The thermal decomposition of a freeze dried Ni-Fe-µ-oxo-acetate results in the formation of an amorphous nickel ferrite. Crystallization of the spinel NiFe2O4 takes place between 300 and 500°C. High disperse amorphous (or less crystalline) products with specific surfaces up to 500 m²/g can be obtained by carful decomposition between 260 and 300°C. Raising the calcination temperature and calcination time effects a decrease of porosity and of the specific surface. The primary nanocrystalline spinel powder is strongly agglomerated. During an annealing process between 300 and 500°C the crystallite size is increased but the mean diameter of agglomerates of about 15 µm does not change. A combination of milling and ultrasonic dispersion allows the adjustment of grain sizes < 1 µm with a narrow grain size distribution.

Keywords: nickel ferrite, thermal decomposition, pore structure, specific surface, ceramics, X-ray powder diffraction

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