Dye adsorption for dye-sensitized solar cell

Homogeneous dye adsorption and deep penetration into a titanium dioxide (TiO2) thin film of the negative electrode in a dye-sensitized solar cell were the main factors to obtain high performance. A dye is typically adsorbed by soaking the TiO2 film in a dye solution. A long immersion time is needed to adsorb the dye and it is also difficult to adsorb the dye to the depth of the TiO2 thin film in a short time. In this study, electrophoresis was used to solve these problems. A dye solution of water or ethanol in which Eosin Y dissolves behaves like a colloid. The adsorption time needed to adsorb a specified amount of dye was shortened by the electrophoresis compared to immersion. An optimum concentration, current density and electrophoresis time exist for better conversion efficiency of the dye-sensitized solar cell (DSSC) when the dye molecules are absorbed by electrophoresis. Thus, electrophoresis is effective to adsorb Eosin Y on the TiO2 thin film.

► Adsorption time of Eosin Y on TiO2 thin film was shortened by the electrophoresis. ► Eosin Y can be transported to the depth of the TiO2 thin film rapidly by electrophoresis. ► Dye adsorption by electrophoresis was effective for Eosin Y.