Recently a significant improvement in the thermoelectric performance of p-type ternary PbTe–
PbSe and PbTe–PbS systems has been realized through alternating the electronic band …

A long-standing technological challenge to the widespread application of thermoelectric
generators is obtaining high-performance thermoelectric materials from abundant elements …

Lead chalcogenides are dominant thermoelectric materials in the medium-temperature
range due to their highly favorable electronic band structures and low thermal conductivities …

Lead chalcogenides (PbQ, Q= Te, Se, S) have proved to possess high thermoelectric
efficiency for both n-type and p-type compounds. Recent success in tuning of electronic …

As an inexpensive and earth abundant analogue of PbTe, PbSe has aroused growing
attention recently as advanced thermoelectric materials. In the present report, the effect of …

Lead chalcogenide thermoelectric systems have been shown to reach record high figure of
merit values via modification of the band structure to increase the power factor or via …

Lead chalcogenides have long been studied as promising thermoelectric materials,
operating at the mid-temperature range of 500–950 K. Here, we studied thermoelectric …

The study of the lead chalcogenides system has been extended throughout the history of
thermoelectrics due to their extraordinary physical and chemical properties. Compared with …

Te-free PbS has been regarded as a promising alternative candidate for PbTe
thermoelectric materials due to its advances of low-cost, earth-abundant. In this work, we …

The earth-abundant PbS is a sister compound of PbTe and PbSe, and attracts increasing
research interests from thermoelectric community. Owning to its strong Pb-S chemical …