Distribution of Alloying Quadrivalent Zirconium in TiO_2−x Magnèli Phase

Abstract

The alloying effect of ZrO₂ on the microstructure of the thermoelectric material, Ti_nO_2n−1, which is a partially reduced rutile phase called the Magnèli phase, is investigated. The microstructure of Ti_nO_2n−1 is characterized by periodically induced planar defects, called shear planes, in the rutile matrix. The configuration of the O atoms around a Ti atom in a shear plane is different from that in the rutile matrix but similar to that in Ti₂O₃. It is speculated that the alloying of ZrO₂, which has an equivalent structure to that of rutile, causes preferential Zr addition in the rutile matrix. From the microstructural observation of the alloying specimen (Ti₁₀O₁₉+6 mol%ZrO₂), it is revealed that the added Zr is distributed homogeneously in the entire microstructure because the valence of the Ti atoms in the matrix rutile and shear plane is similar.

Fig. 6 STEM-EELS analysis (a) Acquisition point of the EELS-spectrum (b) Ti-L_2,3 edge of the EELS spectrum.