Precursor effects on ZrW2O8 formation kinetics

The synthesis of ZrW₂O₈ from different kinds of mixtures containing ZrO₂–WO₃, ZrO(NO₃)₂·2H₂O–WO₃, ZrCl₂O·8H₂O–WO₃, and ZrO₂–(NH₄)₁₀W₁₂O₄₁·5H₂O was investigated, and the kinetics was analyzed using JMA equation. It was found that ZrO(NO₃)₂·2H₂O, ZrCl₂O·8H₂O H₂O and (NH₄)₁₀W₁₂O₄₁·5H₂O that were used as inorganic precursors formed ZrO₂ and WO₃ after firing above 500 °C. The content of ZrW₂O₈ obtained by firing the mixtures is influenced by the kinds of precursors as well as mixing methods. The formation rate of ZrW₂O₈ depends on homogeneity related to mixing methods as well as the particle size of starting powders. Phase-pure ZrW₂O₈ is obtained from the ZrCl₂O·8H₂O–WO₃ mixtures at 1200 °C for 4 h, which is much shorter time than in the case of conventional ZrO₂–WO₃ mixtures. In the reaction kinetics of ZrO₂–WO₃ system, the Avrami exponent (n) is ∼0.5 above 1175 °C, indicating that the reaction is controlled by the diffusion-controlled reaction.