Exhaustive attempts are made in recent decades to improve the performance of
thermoelectric materials that are utilized for waste heat‐to‐electricity conversion. Energy …

Exploring highly efficient thermoelectric materials to address energy generation is the
current area of interest. Fundamentals of materials science, the behavior of materials …

N‐type PbSe thermoelectric materials encounter challenges in improving the power factor
due to the single‐band structure near the Fermi level, which obstructs typical band …

Bi 2 Te 3 is one of the most promising thermoelectric (TE) materials. Effect of doping to
decouple the electrical and thermal properties has been studied over a long decade. Here …

The state-of-art thermoelectric (TE) materials with high efficiency (ie, ZT~ 1) at room
temperature require meeting essential features, such as being environmentally friendly (ie …

PbS is identified as a potential alternative candidate material for thermoelectric power
generation and refrigeration, owing to the resemblance with PbTe in crystal and band …

ZnO is a promising thermoelectric (TE) material for high-temperature applications; however,
its TE performance is limited by strong coupling between the electrical and thermal transport …

Based on first-principles calculations and semi-classical Boltzmann transport theory, the
electronic structures and thermoelectric properties of half-Heusler compound Zr doping on …

Transition metal oxide-based pseudocapacitors fundamentally involve fast charge–
discharge processes due to the fast-Faradaic redox reactions occurring at the interface …

AgSbSe 2 exhibits promising thermoelectric performance due to its original low thermal
conductivity. Herein, we first investigate the influence of Mn doping on the thermoelectric …