Thin films Tin sulfide SnS pure and doped with different ratios of Cu (X=0, 0.01, 0.03 and 0.05) were prepared using thermal evaporation with a vacuum of 4*10-6 mbar on two types of substrates n-type Si and glass with (500) nm thickness for solar cell application. X-ray diffraction and AFM analysis were carried out to explain the influence of Cu ratio dopant on structural and morphological properties respectively. SnS phase appeared forming orthorhombic structure with preferred orientation (111), increase the crystallinity degree and surface roughness with increase Cu ratio. UV/Visible measurement revealed the decrease in energy gap from 1.9eV for pure SnS to 1.5 for SnS: Cu (0.05) making these samples suitable for photovoltaic application. On the other hand, Hall Effect indicated the high percentage of Cu increased carrier concentration and mobility. Current-voltage characteristics of p-SnS: Cu / n-Si demonstrate good photovoltaic effect as ratios of Cu increased and the contact parameters which obtained from these measurement show good dependence on doping concentration. In addition, 0.05 of Cu doping was an optimum level of concentration doping increase the efficiency of SnS: Cu /Si solar cell to 3.5%.
Influence of Growth Temperature on TiO2 Nanostructures by Hydrothermal Synthesis
