Tailoring thermoelectric performance of-type BiTethrough defect engineering and conduction band convergence.

BiTe, an archetypical tetradymite, is recognised as a thermoelectric (TE) material of potential application around room temperature. However, large energy gap (Δ) between the light and heavy conduction bands results in inferior TE performance in pristine bulk-type BiTe. Herein, we propose enhancement in TE performance of pristine-type BiTethrough purposefully manipulating defect profile and conduction band convergence mechanism.

Tuning of thermoelectric performance by modulating vibrational properties in Ni-doped SbTe.

SbTe, a binary chalcogenide-based 3D topological insulator, attracts significant attention for its exceptional thermoelectric performance. We report the vibrational properties of magnetically doped SbTethermoelectric material. Ni doping induces defect/disorder in the system and plays a positive role in engineering the thermoelectric properties through tuning the vibrational phonon modes.

Observation of Griffiths-like phase in the quaternary Heusler compound NiFeTiSn.

The quaternary Heusler compound NiFeTiSn can be considered to be derived from the exotic pseudogap-compound FeTiSn by the replacement of one Fe atom by Ni. In contrast to FeTiSn, which shows a disorder induced ferromagnetic phase, the ground state of NiFeTiSn is antiferromagnetic with the signature of spin canting. Interestingly, NiFeTiSn shows a Griffiths-like phase characterized by isolated ferromagnetic clusters before attaining the antiferromagnetic state.