Optimizing Thermoelectric Performance of Tellurium via Doping with Antimony and Selenium

Abstract: Forming solid solutions is one of the most effective strategies to suppress the thermal conductivity of thermoelectric materials. However, the accompanying increase in impurity ion scattering usually results in an undesirable loss in hall mobility, negatively impacting the electrical transport properties. In this work, a tellurium–selenium (Te-Se) solid solution with trace antimony (Sb) doping was synthesized via the high pressure and high temperature method. It was found that slight Se doping into the Te site… Show more

“…Tellurium (Te) is important due to its involvement in certain alloys, producing photovoltaic solar cells [ 1 ], thermoelectric cooling devices [ 2 ], ceramics and glass [ 3 ], and machines, printers, and telescopes [ 4 ]. Tellurium is characterized as a p-type semi-conductor with a narrow band gap energy of 0.34 eV.…”

Tellurium and Nano-Tellurium: Medicine or Poison?

“…Tellurium (Te) is important due to its involvement in certain alloys, producing photovoltaic solar cells [ 1 ], thermoelectric cooling devices [ 2 ], ceramics and glass [ 3 ], and machines, printers, and telescopes [ 4 ]. Tellurium is characterized as a p-type semi-conductor with a narrow band gap energy of 0.34 eV.…”

Tellurium and Nano-Tellurium: Medicine or Poison?

Computational innovation of in situ metallic elements with zirconia as a novel possible carrier for chemotherapeutic medication

Crystal structure and thermoelectric properties of bulk polycrystalline (SbxBi1-x)2Se3 alloys