Synthesis of TiO2 nanoparticles and the performance of dye-sensitized solar cells

Abstract

TiO2 electrodes were effectively produced through the hydrothermal technique and used to build photosensitizer photovoltaic energy. Its impacts of Mn2 + and Co2 + particles on TiO2 anode characteristics were also investigated. XRD, TEM/HRTEM, UV–Vis Spectroscopy, and I–V characterization were used to characterize the materials, and their photo-conversion efficiencies were assessed using IPCE and EIS. TiO2 has no contaminant layer, according to X-ray diffraction measurements. The X-ray micrographs of TiO2 loaded with (Mn and Co) particles are essentially identical to those of Nano composite, indicating that no one has any impact on synthesis of crystalline Titanium dioxide. The impact of depletion region on the group kinetics and photo electrochemical characteristics of nanomaterial Titanium surfaces was studied. The results of the experiments revealed that the amount of TiO2 in the sample has a significant impact on the photo electrochemical capabilities. The power density of (Mn and Co) Tio2 surface was lowered with illumination of 100 m W/cm2 white radiation due to the substantial shift in smooth branching point and process. The system that occurred due to whole frequency of Titanium surfaces with particles loading.