Surfactant directed self-assembly of size-tunable mesoporous titanium dioxide microspheres and their application in quasi-solid state dye-sensitized solar cells

Abstract: This paper provides mechanistic insight into the self-assembly involved in the controlled synthesis of mesoporous TiO2 microspheres with tunable sizes (200nm, 400nm and 600nm on average). The salient features of these microspheres, when used as building blocks of photoanode films in lieu of traditional small nanoparticles, have been systematically studied for the first time in highly viscous gel-electrolyte-based dye-sensitized solar cells. The light scattering property, electron transport and interface recombination kinetics have been critically compared with respect to the morphology and the size of the building blocks. A >6.78% power conversion efficiency was achieved with the 400nm microspheres due to the balanced combination of light scattering, electrolyte permeation and charge collection advantages. This accentuates the performance limiting factor of the small nanoparticles and the 600nm microsphere photoanodes as the difficulty for the quasi-solid electrolyte to fill in their long, narrow mesoscopic pore channels, a scenario supported by their short electron lifetimes as measured by intensity modulated photovoltage spectroscopy (IMVS). [Copyright &y& Elsevier]