Electrodeposition of zinc antimony alloy thermoelectric materials

Zinc antimonite, Zn4Sb3 is a promising thermoelectric material because of its high thermoelectric performance and abundance of Zn and Sb in nature. Thus, in this study, samples of Zn-Sb alloy were prepared using electrodeposition method because of its simple experimental set-up, which also carried out in the room temperature. From the XRD results, all samples deposited exhibit Zn-Sb alloy compositions. The best results were S1 and S3 as they had dominant peaks that showed the crystal lattice of Zn4Sb3. From the SEM images, the surface morphology of Zn-Sb alloy deposited samples showed were all-irregular, course and rough structures. While, the atoms arrangement of the deposited samples were all flowery-like. Based on physical properties characterization, the best samples; S1 (0.1M ZnCl2-0.1M SbCl3, 100mA, 120min) and S3 (0.1M ZnCl2-0.1M SbCl3, 50mA, 120min), were selected and investigated their thermoelectric performances; electrical conductivity and Seebeck coefficient, to determine their power factor, PF. Heat capacity of the samples was also examined to relate it with thermal conductivity of Zn-Sb deposited samples. For thermoelectric performance, S1 obtained power factor of 1.37x10(-7) V/K. Omega.cm at 102 degrees C with the Seebeck coefficient of 181 mu V/K. While as for S3, the power factor was 1.58x10(-7) V/K. Omega.cm with Seebeck coefficient of 113 mu V/K at 101 degrees C. From DSC analysis, it showed that S3 obtained higher C-p than S1. C-p for S3 was 46.8093mJ/degrees C while S1 was 38.3722mJ/degrees C.