Abstract
To replace precious Pt-based counter electrodes (CEs) with a low-cost Pt-free catalyst of CEs is still a motivating hotspot to decrease the fabrication cost of dye-sensitized solar cells (DSSCs). Herein, four different V(2)O(3)@C composite catalysts were synthesized by pyrolysis of a precursor under N(2) flow at 1100 °C and further served as catalytic materials of CEs for the encapsulation of DSSCs. The precursors of V(2)O(3)@C composites have been prepared via a sol-gel method using different proportions of V(2)O(5) with soluble starch in a H(2)O(2) solution. Power conversion efficiencies (PCEs) of 3.59, 4.79, 5.15, and 5.06% were obtained from different V(2)O(3)@C composites, with soluble starch-to-V(2)O(5) mass ratios (S/V) of 1:2, 1:1, 2:1, and 4:1, respectively, as CEs to reduce iodide/triiodide in DSSCs. The improvement of electrode performance is due to the combined effects on the increased specific surface area and the enhanced conductivity of V(2)O(3)@C composite catalysts.