TiO2 based dye-sensitized solar cells (DSSCs) have great potential to solve many energy challenges, however, their low energy conversion rate is still a barrier for further applications. Ethanol vapour post-treatment can improve the DSSC%26apos;s conversion efficiency without changing its architecture, and a stable 2-3% improvement was found in our experiments. Microstructural and chemical factors were investigated using scanning electron microkopy and analytical electron microscopy on treated and untreated electrodes. The vapour treatment improved the porosity and surface-to-volume ratio of the TiO2 particles, decreased electron transport loss between TiO2 and fluorine doped tin oxide, and increased hydroxyl sites on the TiO2 particle%26apos;s surface. The modification therefore enhanced the dye uptake and dye TiO2 coupling, and it reduced the energy loss during the carrier transfer.

• 出版日期2013-1-1