From the past few years, developments of β-Ti alloys have been the subject of active
research in the medical domain. The current paper highlights significant findings in the area …

Half-Heusler alloys are leading candidate materials for large scale thermoelectric power
generation. In the past decade, substantial improvements have been made to the …

From phase boundary mapping, we find that the thermoelectric TiNiSn half-Heusler phase
shows a narrow solubility range on the Ti–Ni–Sn phase diagram primarily in the range of …

Compositional tailoring enables fine-tuning of thermoelectric (TE) transport parameters by
synergistic modulation of electronic and vibrational properties. In the present work, the …

A new single phase high entropy alloy, Ti2NiCoSnSb with half-Heusler (HH) structure is
synthesized for the first time by vacuum arc melting (VAM) followed by ball-milling (BM). The …

Abstract Ti2− x NiCoSnSb (x= 0.125, 0.250, 0.375, and 0.500) half Heusler (HH) high-
entropy thermoelectric alloys were synthesized by the arc melting—ball milling—spark …

Mechanical alloying has been applied, as an advantageous scalable method, to synthesize
Ti 1-x Zr x NiSn half Heusler materials. This is the first time a synthesis of single phase n …

Half-Heusler alloys, which possess the advantages of high thermal stability, a large power
factor, and good mechanical property, have been attracting increasing interest in mid …

Defect engineering has been identified as an effective strategy for improving thermoelectric
performance by tailoring electron and phonon transport. TiNiSn is unique due to its naturally …

For thermoelectric applications, ab initio methods generally fail to predict the transport
properties of the materials because of their inability to predict properly the carrier …