Add to ORKGCareful heat treatment of the glaze produces a very small number of willemite (zinc orthosilicate, Zn2SiO4) nuclei which can grow to centimetre dimensions over the course of a few hours at a suitably high temperature. Cobalt in the glaze composition segregates preferentially to the willemite crystals, colouring them blue.
Abstract Cobalt (Co) compounds have been used for centuries to impart rich blue color to glass, glaz...
The synthesis of mixed cobalt–iron chromites, Fe1−ΨCoΨCr2O4 (0 ≤ Ψ ≤ 1), has been studied by Solutio...
Over the last few years, the manganese doped willemite (Zn2SiO4) draw much attention in the solid st...
Careful heat treatment of the glaze produces a very small number of willemite (zinc orthosilicate, Z...
Cobalt-doped willemite is a promising blue ceramic pigment, but some important aspects concerning cr...
Fine particles of willemite, α-Zn2SiO4, were prepared by both solution combustion and sol-gel metho...
Fine particles of willemite, alpha -Zn2SiO4, were prepared by both solution combustion and sol-gel m...
Cobalt-doped willemite is a promising blue ceramic pigment, but some important aspects concerning cr...
Crystalline glazes give amazing and spectacular results in ceramic. Their actual chemical makeup is ...
The family of M(II) substituted ZnO–wurtzite was investigated as potential new ceramic pigments. Whe...
A glazed ceramic product with crystalline structure gives an artistic effect. In this study, the eff...
When metal oxides are added into crystalline glaze, colors of glaze and crystals are similar as colo...
Raising cost, limited reserves, and toxicity make a pressing need to reduce the consumption of cobal...
Sol-gel processing is under intense world-wide investigation, particularly for synthesis of advanced...
In this research, the effects of Zn on microstructure and color developments of the copper reduction...
Abstract Cobalt (Co) compounds have been used for centuries to impart rich blue color to glass, glaz...
The synthesis of mixed cobalt–iron chromites, Fe1−ΨCoΨCr2O4 (0 ≤ Ψ ≤ 1), has been studied by Solutio...
Over the last few years, the manganese doped willemite (Zn2SiO4) draw much attention in the solid st...
Careful heat treatment of the glaze produces a very small number of willemite (zinc orthosilicate, Z...
Cobalt-doped willemite is a promising blue ceramic pigment, but some important aspects concerning cr...
Fine particles of willemite, α-Zn2SiO4, were prepared by both solution combustion and sol-gel metho...
Fine particles of willemite, alpha -Zn2SiO4, were prepared by both solution combustion and sol-gel m...
Cobalt-doped willemite is a promising blue ceramic pigment, but some important aspects concerning cr...
Crystalline glazes give amazing and spectacular results in ceramic. Their actual chemical makeup is ...
The family of M(II) substituted ZnO–wurtzite was investigated as potential new ceramic pigments. Whe...
A glazed ceramic product with crystalline structure gives an artistic effect. In this study, the eff...
When metal oxides are added into crystalline glaze, colors of glaze and crystals are similar as colo...
Raising cost, limited reserves, and toxicity make a pressing need to reduce the consumption of cobal...
Sol-gel processing is under intense world-wide investigation, particularly for synthesis of advanced...
In this research, the effects of Zn on microstructure and color developments of the copper reduction...
Abstract Cobalt (Co) compounds have been used for centuries to impart rich blue color to glass, glaz...
The synthesis of mixed cobalt–iron chromites, Fe1−ΨCoΨCr2O4 (0 ≤ Ψ ≤ 1), has been studied by Solutio...
Over the last few years, the manganese doped willemite (Zn2SiO4) draw much attention in the solid st...