Enhanced sunlight harvesting of dye-sensitized solar cells through the insertion of a (Sr, Ba, Eu)₂SiO₄-TiO₂ composite layer

TiO₂ nanoparticle-based dye-sensitized solar cells (DSSCs) were modified by inserting a composite layer of (Sr, Ba, Eu)₂SiO₄-TiO₂ on top or at bottom of the transparent layer, so as to enhance their sunlight harvesting capability. Due to the presence of the (Sr, Ba, Eu)₂SiO₄ phosphor layer, absorption band of the photoanodes was shifted from violet region to the active photoabsorption region of the dye N719 used in the DSSCs. Power conversion efficiency of the devices showed that the introduction of such phosphor significantly enhanced light harvesting capability of the DSSCs. The electrons which are produced by the (Sr, Ba, Eu)₂SiO₄ particles, reduced I₃^- to I^-, so that the concentration of I₃^- was at a lower level in the electrolyte. As a result, the number of electrons injected into the TiO₂ conduction band (CB) by I₃^- ions was decreased. Under one sun illumination (AM 1.5 G, 100 mW cm^-2), the devices with the insertion of the (Sr, Ba, Eu)₂SiO₄-TiO₂ composite layer showed an optimal power conversion efficiency of 5.97%, which was increased by 23.34% as compared with that (4.84%) of the devices without the composite layer. The introduction of down-conversion phosphors into DSSCs is an effective approach to improve their performances.