Mg 3 (Bi,Sb) 2 single crystals towards high thermoelectric performance

The rapid growth of the thermoelectric cooler market makes the development of novel room temperature thermoelectric materials of great importance. Ternary n-type Mg 3 (Bi,Sb) 2 alloys are promising alternatives to the state-of-the-art Bi 2 (Te,Se) 3 alloys but grain boundary resistance is the most important limitation. n-type Mg 3 (Bi,Sb) 2 single crystals with negligible grain boundaries are expected to have particularly high zT but have rarely been realized due to the demanding Mg-rich growth conditions required. Here, we report, for the first time, the thermoelectric properties of n-type Mg 3 (Bi,Sb) 2 alloyed single crystals grown by a one-step Mg-flux method using sealed tantalum tubes. High weighted mobility ∼140 cm 2 V −1 s −1 and a high zT of 0.82 at 315 K are achieved in Y-doped Mg 3 Bi 1.25 Sb 0.75 single crystals. Through both experimental angle-resolved photoemission spectroscopy and theoretical calculations, we denote the origin of the high thermoelectric performance from a point of view of band widening effect and electronegativity, as well as the necessity to form high Bi/Sb ratio ternary Mg 3 (Bi,Sb) 2 alloys. The present work paves the way for further development of Mg 3 (Bi,Sb) 2 for near room temperature thermoelectric applications.