Crystallization mechanism in Sb:Te thin films

Abstract

The aim of this work is to study the mechanism of crystallization in Sb:Te thin films using differential scanning calorimetry (DSC), four-probe resistivity and X-ray diffraction (XRD) measurements. The DSC showed that the Sb 70+ x Te 30− x films with x in the range of −3⩽ x⩽3 show one exothermic reaction at 110 °C, whereas the films with x in the range of 3⩽ x⩽13 present an additional one at about 70 °C. XRD measurements and Rietveld analysis have shown that the first exothermal peak can be associated to the formation of crystalline Sb and the second to the process of transformation of the Sb and the remaining material into a more stable Sb 2 n Te 3 crystalline phase. Appearance of additional Sb phase decreases the crystallization temperature of Sb 70+ x Te 30− x films. These structural transformations are also observed in the four-probe resistivity measurements: a one-step crystallization process in the Sb 70+ x Te 30− x films with x in the range of −3⩽ x⩽3and a two-steps crystallization process in films with x in the range of 3⩽ x⩽13. The results of this investigation have shown that the amorphous-to-crystalline phase transformation in eutectic Sb:Te depended on the films composition.