Thermal deamination kinetics of the nickel-containing chabazite-like aluminophosphate, Ni(NH2–CH2–CH2–NH2)2(AlPO4)6(OH)2, deposition of nanocrystalline NiO particles

Thermogravimetrical analysis has been used to study the kinetics of thermal deamination of bis(ethylenediamine)nickel(II)-containing aluminophosphate (Ni–CHA) which is a precursor of nickel(II)-containing chabazite-like AlPO4-34. The deamination occurs as a single–step kinetic process which is best described by the contracting cylinder model. The obtained activation energy of 200 kJ/mol is mainly a reflection of the strong Ni–N coordination bond. The thermal decomposition of Ni–CHA results in the deposition of crystalline NiO particles homogeneously dispersed in the AlPO4-34 lattice. Average particle size was found to be about 5 nm. The study confirms that the thermal decomposition of amine complexes of Ni(II) encapsulated inside the microporous aluminophosphate host can be a suitable method for obtaining fine nano-oxide particles.

Graphical abstractThe thermal decomposition of a diammine complex of Ni(II) encapsulated inside chabazite-like AlPO4-34 results in the deposition of crystalline NiO particles homogeneously dispersed in the aluminophosphate lattice. Average particle size was found to be about 5 nm. The study confirms that the thermal decomposition of amine complexes of Ni(II) immobilized inside the microporous aluminophosphate host can be a suitable method for obtaining fine nano-oxide particles.Figure optionsDownload full-size imageDownload as PowerPoint slide