Transport and thermoelectric properties of melt spinning synthesized M2FeNiSb2 (M = Ti, Hf) double half Heusler alloys

In this study, we report on structural and thermoelectric properties of novel Heusler compounds Hf2FeNiSb2 and Ti2FeNiSb2. Polycrystalline samples were successfully synthesized by arc melting and melt spinning techniques and consolidated by spark plasma sintering method. The studied compounds were found to crystallize in a face centered cubic crystal structure, as can be judged by superstructural reflections, clearly seen on the X-ray diffraction patterns. Morphology and grain sizes were examined by SEM analysis, showing homogeneity and high density of grains in the synthesized samples. Electrical conductivity and Seebeck coefficient were investigated in a range of temperatures between 300 and 900 K. Thermal conductivity was measured in the same temperature range and found to be significantly lower than that previously reported for related half-Heusler alloys such as TiCoSb. The thermoelectric figure of merit of the concerned Hf2FeNiSb2 and Ti2FeNiSb2 samples was found at 0.082 and 0.027, respectively, at 874 K.

Automated summary

In this study, the structural and thermoelectric properties of two novel Heusler compounds, Hf2FeNiSb2 and Ti2FeNiSb2, were investigated. Polycrystalline samples were synthesized using arc melting and melt spinning techniques, and then consolidated by spark plasma sintering. The compounds were found to have a face centered cubic crystal structure, and SEM analysis confirmed the homogeneity and high density of the synthesized samples. The electrical conductivity, Seebeck coefficient, and thermal conductivity were measured, and the thermoelectric figure of merit was calculated for both compounds.