This paper reports first on the novel synthesis of hierarchical tin dioxide (SnO2) porous microspheres in the absence of a template using a simple spray reaction technique and annealing at 500-800 degrees C. The SnO2 microspheres obtained are tetragonal phase and approximately 2.2-2.7 mm in diameter, and they consist of 6.7-23.1 nm crystallites and possess hierarchical pores and Brunauer-Emmett-Teller (BET) surface areas of up to 55 m(2) g(-1). Using ultraviolet-visible absorption spectra analysis, it is found that SnO2 crystallites demonstrate a quantum size effect, resulting in a widening of the band gap of the SnO2 spheres. This band gap can be tuned from 3.99 eV (800 degrees C) to 4.26 eV (600 degrees C) by varying the annealing temperature. Using separated SnO2 porous spheres as the scattering layer of the photoanode for dye sensitized solar cells (DSSCs), the solar light-electricity conversion efficiency (maximum: 6.0%) is increased by up to 31.9% and 28.2% compared to cells using a commercial SnO2 powder and P25 nanopowder as the scattering layers, respectively, under the same conditions.

• 出版日期2017
• 单位北京交通大学; 北京工业大学