Zinc tin antimonide (ZnSnSb2): crystalG. H. DinescuInstitute of Physics and Technology of Radiation Devices, P.O. Box MG-7, Bucharest-Magurele, ROMANIAO. MarisCenter of Astronomy and Spatial Sciences, P.O. Box MG-7, Bucharest-Magurele, ROMANIAG. Musa...
Considering the fact that ZnSnSb2 with a chalcopyrite structure is reported to have c/a close to 2.00, it is expected to have multiple valence bands leading to a high p-type zT. However, there are no complete investigations on the high temperature TE properties of ZnSnSb2 mainly because of...
ZnSnSbChalcopyriteThermoelectricLow resistivitySolid state reactionThermoelectric (TE) devices convert heat energy directly into electricity, which requires highly efficient, eco-friendly, and reliable materials. The chalcopyrite compound zinc tin antimonide (ZnSnSb2) is a promising thermoelectric material that...
On Electro-Physical Properties of ZnSnSb28/ICOMNot Availabledoi:10.1002/pssb.19690320260L. V. KradinovaT. I. VoroninaJohn Wiley & Sons, Ltd.Physica Status Solidi
It was determined that three ZnSnSb2 phonons of B2 symmetry interact with plasma, which then leads to the change of their positions. A detailed analysis of this interaction provides insight into the behavior of some other material parameters. Also, vibration modes of ZnSb and SnSb phases were ...
Semiconductors of II-IV-V-2 type with chalcopyrite structure have been studied for several decades. Due to advances in materials synthesis technologies, and doping with various elements, the possibilities of their application have expanded. In this paper, polycrystalline ZnSnSb2 + Mn was examined ...