Abstract
This paper reports the measurement of space charge limited conduction (SCLC) on the fabricated thin films of Se95−xSxZn5 (0.2≤x≤10) in temperature range 313–353K for the first time. At high electric fields (E∼104V/cm), the current could be fitted into the theory of space charge limited conduction, in case of uniform distribution of localized states in mobility gap. The homogeneity and surface morphology of thin films were assessed by scanning electron microscopy. The crystalline nature of the thin films was confirmed by powder XRD and the crystallite size was calculated using Scherer's formula. The crystallite size and density of localized states were found to increase with the increase of sulfur concentration. DC conductivity and activation energy were calculated and found to decrease and increase respectively, with the increase of sulfur concentration.
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