Subsolidus phase relationships in the 2(ZnTe)(x)(CuInTe2)(1-x) system were investigated by TEM experiments combined with EDX analysis. The samples were prepared by the solid-state reaction of the elements during long annealing times, followed by either quenching in ice-cold water, or by ...
In this work, a cubic medium-entropy CuInTe2-based thermoelectric material (CuZnxInTe2+x) was prepared by incorporating binary ZnTe into ternary CuInTe2 based on structure modulation and the impact of the ZnTe alloying on the nanoscale microstructure and thermal conductivity was explored. It is ...
(2000) Temperature Dependence of the Thermal Expansion Coeffi-cient of (CuInTe2)1 - x(2ZnTe)x Solid Solution. Phys. Status Solidi A 179: pp. 305-309Bodnar I V,Korzun B V,Chibusova L V.Temperature dependence of thermal expansion coefficient of (CulnTe2)1-x (2ZnTe)x solid solut...
ZnTesolid solutionphase transitionX‐ray diffractionband gapThe crystal structure as well as the optical properties in the band gap region of (CuInTe2)1-x(2 ZnTe)x solid solution single crystals grown by directional freezing have been studied. The lattice constants exhibit a linear dependence...
A synergistic strategy of point defects and microstructure engineering has been proposed and demonstrated in this work to regulate the electrical and thermal transport properties of chalcopyrite CuInTe2 based TE materials: on one hand, the power factor increases greatly by dissolving ZnTe into the C...