Abstract:
Many studies have been conducted to increase the effectiveness and efficiency of solar cells using
low cost materials. This field of research is highly important due to the increasing demand for energy and
environmental pollution caused by energy resources used today. In an attempt to replace dye in photoelectrodes
of DSSCs by other materials, organic inorganic perovskite solar cells emerged. Recently, such
organic- inorganic perovskite solar cells obtained revolutionary advancement. However, the use of organic
compounds causes stability issues, though such cells exhibited efficiencies above 20%. Therefore, search
for new stable completely inorganic photo-electrode capable of harvesting sunlight is highly important.
The present study is focused on improving light harvesting properties of TiO2 based electrode by
incorporating V2O5 nanoparticles. The photo-electrodes were prepared by adding 0, 5, 10, 15, 20% mass
fractions of V2O5. The fabricated photo-electrodes are characterized by analysing XRD, SEM, UV visible
absorption spectrum, Mott-Schottky plots and Tauc plots. The peaks in the XRD spectrum are used to
calculate the crystallite size and dislocation density. For the TiO2 film the crystallite size and dislocation
density are about 31.6 nm and 9.98 × 1014 m-2 while those of V2O5 are about 52.6 nm and 3.62 × 1014 m-2
respectively. Table 1 shows the bandgap values obtained using Tauc plots for all the photo-electrodes
investigated.Photo-electrochemical cells are assembled by sandwiching a gel polymer electrolyte between
TiO2/V2O5 photo-anode and Pt counter electrode. The energy conversion efficiency of these dye free solar
cells improved from 0.006 to 0.083 % with increasing amount of V2O5. .
