A comparative study of thin films of Zn(O;OH)S and In(O;OH)S deposited on CuInS2 by chemical bath deposition method

In this work, a study of synthesis of thin films of Zn(O;OH)S and In(O;OH)S deposited by chemical bath deposition (CBD) is presented. The thin films of Zn(O;OH)S and In(O;OH)S were deposited from different chemical bath systems on absorber layers of CuInS2 (CIS), indium tin oxide substrates (ITO) and soda lime glass substrates (SL). The differences on the growth rate, optical, morphological and structural properties of the thin films Zn(O;OH)S and In(O;OH)S are studied. The Growth studies showed that thin films of Zn(O;OH)S and In(O;OH)S grown faster on CIS than on SL and ITO substrates. The optical and morphological studies showed that both thin films present high transmittance in visible electromagnetic spectrum and covered uniformly the surface of the substrate, furthermore it was observed that thin films of Zn(O;OH)S and In(O;OH)S were polycrystalline. Finally, the results suggest that thin films of Zn(O;OH)S and In(O;OH)S obtained in this work could be used as buffer layer to replace the thin films of CdS, which are conventionally used as buffer layer in chalcopyrite based solar cells.

► In this work we determinate the experimental conditions to obtain two different buffer layers on typical absorbent layers.
► We examine the difference in the growth rate of both buffer layers on three different substrates.
► We compare the different physical properties o both buffer layers synthesized.
► A low growth rate of buffer layer was observed when smooth and amorphous substrates were used.
► Crystalline and morphological properties of buffer layers depend on type of substrate used.