Synthesis and color performance of CaCoSi2O6 pyroxene, a new ceramic colorant

The pyroxene structure was successfully used as a crystalline host for a new Co-based pink pigment. Different compositions of Ca<inf>1-x</inf>Co<inf>1+x</inf>Si<inf>2</inf>O<inf>6</inf> (0 <= x <= 1) powders were prepared by using the solid state method with different temperatures and times of annealing. The characterization of the fired samples was performed by X-Ray Diffraction (XRD), Scanning Electron Microscopy (SEM), colorimetry and technological tests simulating the ceramic applications. A monophasic pink clinopyroxene was obtained for compositions close to the CaCoSi<inf>2</inf>O<inf>6</inf> end-member. For increasing cobalt content, an assemblage of Co-olivine, Co-åkermanite and Ca,Co-pyroxene was found. Samples containing Co-åkermanite have a deep blue color stemming from Co²⁺ in tetrahedral coordination, while those with Co-olivine are violet due to Co²⁺ in octahedral coordination. The best conditions for the synthesis of a CaCoSi<inf>2</inf>O<inf>6</inf> single phase were then investigated, finding that a proper annealing cycle at 1150 °C prevents the formation of metastable Co-åkermanite. The CaCoSi<inf>2</inf>O<inf>6</inf> pyroxene was tested as a ceramic pigment into glazes and glassy coatings. In most cases, it behaves like a dye, completely dissolving in the melted glaze, analogously to Co-olivine.