Efficiency Enhancement by Mixed Cation Effect In Dye-sensitized Solar Cells With A Pvdf Based Gel Polymer Electrolyte
This paper reports the effect of using a mixed iodide salt system with two dissimilar cat-ions to enhance the efficiency of dye-sensitized solar cells made with polyvinylidene-fluoride (PVdF) based gel electrolyte. Instead of a single iodide salt, a mixture of potassium iodide (KI) with a small Kþ cation and tetrapropylammonium iodide (Pr4NI) with a bulky Pr4Nþ cation were used to provide the required iodide ion conductivity. Solar cells of configuration FTO/TiO2/Dye/electrolyte/Pt/FTO were fabricated using a mesoporous TiO2 electrode sensitized with a Ruthenium dye (N719). With identical electrolyte compositions, the cells with KI and Pr4NI alone gave efficiencies of 2.37% and 2.90% respectively. The cell with the mixed iodide system, KI:Pr4NI 1⁄4 16.6:83.4 (% weight ratio), however, showed an enhanced efficiency of 3.92% with a short circuit current density of 9.16 mA cm2, open circuit voltage of 674.4 mV and a fill factor of 63.4%.
M.M.Noor