This research is aimed at preparing nano (WO3:Sn) thin film, so that manufacturing anode electrode for a cell electrolysis to produce hydrogen fuel, this thin film was prepared on glass substrates by using depositi...This research is aimed at preparing nano (WO3:Sn) thin film, so that manufacturing anode electrode for a cell electrolysis to produce hydrogen fuel, this thin film was prepared on glass substrates by using deposition laser pulse (LPD) technique have been studying optical properties through the spectra of absorbance and transmittance, was determine the optical energy gap was observed that the permeability increases with the wavelength found that these films have high transmittance in the visible spectral region. The allowed direct band gap was found to increase from (2.9 eV) structured characteristics was studied through the analysis of X-ray diffraction (XRD) of the prepared film for determining the yielding phase which are to set the with standard tables. Also, the sample was tested atomic force microscope to identify the roughness of prepared films surface, and has been the study of the volume of gas output voltages with change, time and current.展开更多
文摘This research is aimed at preparing nano (WO3:Sn) thin film, so that manufacturing anode electrode for a cell electrolysis to produce hydrogen fuel, this thin film was prepared on glass substrates by using deposition laser pulse (LPD) technique have been studying optical properties through the spectra of absorbance and transmittance, was determine the optical energy gap was observed that the permeability increases with the wavelength found that these films have high transmittance in the visible spectral region. The allowed direct band gap was found to increase from (2.9 eV) structured characteristics was studied through the analysis of X-ray diffraction (XRD) of the prepared film for determining the yielding phase which are to set the with standard tables. Also, the sample was tested atomic force microscope to identify the roughness of prepared films surface, and has been the study of the volume of gas output voltages with change, time and current.
