Application of Carbon Nanosphere Templates for Preparation of Inverse Opal Photonic Crystals in Dye‐Sensitized Solar Cells

Haihong Niu, Junqiao Shao, Yuxin Xie, Taibao Ye, Tianwen Li, Suikang Luo, Xiaoyu Yao
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Abstract

Carbon nanospheres are successfully synthesized with a particle size of about 140 nm using a two‐step hydrothermal method and used the carbon nanospheres as the deposition template material on the surface of P25(TiO2) by means of vertical deposition method. The antiopaline TiO2 photonic crystal (PC) structure is further prepared via immersed carbon nanospheres in TiO2 precursor solution, and the antiopal PC is used as the scattering layer of the photoanode of dye‐sensitized solar cell (DSSCs). As a comparison, the antiopal PC reflective layer is also prepared on the photoanode of DSSCs using polystyrene nanospheres as the template material. The photoanodes with those PC scattering layers prepared with different template materials are fabricated into complete DSSCs. The final photoelectric conversion efficiency of the DSSCs prepared with carbon nanospheres as the template material reaches 7.02%, which is comparable to the cells prepared with polystyrene nanospheres as the template material. The efficiency of the cell with the scattering layer is increased by about 16% compared with that of the normal DSSC based on P25.
碳纳米球模板制备反蛋白石光子晶体在染料敏化太阳能电池中的应用
采用两步水热法制备了粒径约为140 nm的纳米碳球,并采用垂直沉积法在P25(TiO2)表面制备了纳米碳球作为沉积模板材料。通过将碳纳米球浸入TiO2前驱体溶液中制备反蛋白石型TiO2光子晶体(PC)结构,并将其作为染料敏化太阳能电池(DSSCs)光阳极的散射层。作为对比,我们还以聚苯乙烯纳米球为模板材料,在DSSCs的光阳极上制备了反蛋白石PC反射层。用不同的模板材料制备具有PC散射层的光阳极,制成完整的DSSCs。以碳纳米球为模板材料制备的DSSCs的最终光电转换效率达到7.02%,与以聚苯乙烯纳米球为模板材料制备的电池相当。与基于P25的普通DSSC相比,有散射层的电池效率提高了约16%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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