A carbon membrane-mediated CdSe and TiO nanofiber film for enhanced photoelectrochemical degradation of methylene blue.

In this study, a carbon membrane-mediated CdSe and TiO ternary film (CdSe/C/TiO) was prepared to degrade methylene blue (MB). Carbon membrane and CdSe were introduced to the surface of a TiO nanofiber film an hydrothermal deposition process successively. The investigation shows that the carbon membrane not only provides a charge transfer channel to promote the transfer of electron from the conduction band of CdSe to that of TiO, but also improves the poor conduct between the TiO film and electrolyte. The synergies between the carbon membrane and CdSe can make the ternary system harvest more visible light energy and facilitate the charge transfer property of TiO. The current density of CdSe/C/TiO was about 9 folds higher compared with that of pure TiO under UV and visible light irradiations. This ternary hybrid exhibits a superior activity during the photoelectrochemical (PEC) degradation of MB, and 92.43% can be removed after 120 min irradiation, which is improved by 21.14% than that of TiO.