Synthesis and coloring properties of novel Ni-doped tialite pigments

Novel Ni-doped Al2TiO5 emerald green ceramic pigments were successfully synthesized for the first time. Several characterization techniques (XRD, XPS, SEM, TEM, UV-Vis, and automatic colorimeters) were used to determine the phase composition and stability of the pigments, as well as the valence state of the doped nickel ion. The results show that nickel ion replaces the Al3+ in the aluminum titanate lattice in the form of Ni2+, which reduces the distortion of the octahedral structure. Ni-doping of the aluminum titanate lattice produces an excellent coloring effect and significantly promotes the synthesis and stabilization of aluminum titanate. The novel pigments have excellent color stability while maintaining exceptional coloring performance and thermal stability in a base glaze synthesized at 1200 degrees C. These pigments show considerable potential for high-temperature applications.

Automated summary

Novel Ni-doped Al2TiO5 emerald green ceramic pigments were synthesized successfully for the first time, showing excellent color stability and thermal stability. The results indicate significant potential for high-temperature applications.