Abstract
Nanosize Nickel ferrite (NiF) was synthesized by the co-precipitation methods, and its effect as a 5% by mass additive was studied on the thermal decomposition of micrometer and nanometer size NTO. In the presence of a 5% NiF additive, the thermal decomposition peak temperature of NTO was decreased from 276.36 to 260.18 °C and that of nanoNTO was decreased from 261.38 to 258.89 °C (β = 10 °C min−1). The kinetics parameters confirm the catalytic activity of NiF for the thermal decomposition of NTO, and nNTO as the parameters such as activation energy (NTO = ~ 25.45% and nNTO = ~ 45.94% decrement), and pre-exponential factor (NTO = ~ 21.94% and nNTO = ~ 43.12% decrement) were decreased when 5% NiF additive was added to NTO, and nNTO. The rate of the decomposition process was increased in the presence of a 5% NiF catalyst, indicating the faster thermal decomposition of both NTO, and nNTO in the presence of a nickel ferrite catalyst.
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