高度有序纳米管阵列作为电化学染料敏化太阳能电池的光阳极

D. Behera, P. Nayak, Tapash Ranjan Rautray
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引用次数: 0

摘要

在无氟高氯酸介质中采用电化学阳极氧化法制备了对称填充的TiO2纳米管(TNTs)。在阳极氧化过程中,通过形成钛膜的无定形/氢氧化物形成相互连接的孔。随着阳极氧化量的增加,膜的厚度增加,孔隙趋于排列,在电极材料表面形成纳米管层。管状结构的一维载流子输运特性引起了科学家们的关注,将tnt用于TiO2光伏和光催化应用。通过控制阳极氧化过程,可以定制tnt的长度、直径和壁厚。在阳极氧化过程中获得的铁和铬掺杂的高有序1-D tnt是染料敏化太阳能电池的优良光阳极,因为它减少了管间连接,垂直电子传递,抑制了电子重组,提高了电流密度,功率转换和光散射效率。利用扫描电镜和x射线衍射分析研究了tnt的形态特征和微观结构。利用扩散电子能谱分析了各种TNT材料表面染料的吸收量,证实了染料吸收量与样品形貌之间的直接相关关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Highly Ordered Nanotube Arrays as Photo-Anodes for Dye-Sensitized Solar Cells by Electrochemical Method
Symmetrically packed TiO2 nanotubes (TNTs) were fabricated in fluorine free perchloric acid medium by electrochemical anodization method. During anodization interconnected pores developed by forming amorphous/ hydroxides of titanium film. On increasing anodization, thickness of film increased and pores tend to become aligned providing surface layer of nanotubes on the electrode material. The 1-D charge carrier transport property of the tubular geometry have attracted scientists attention in using TNTs for TiO2 photovoltaic and photo catalysis applications. By controlling the anodization process, the length, diameter and wall thickness of TNTs can be tailored. The iron and chromium doped highly ordered 1-D TNTs obtained during anodization are superior photoanodes for dye-sensitized solar cells because of its reduced inter tube connections, vertical electron transport, suppressed electron recombination and enhanced current density, efficiency in power conversion and light scattering. The morphological characteristics and microstructure of TNTs were investigated by SEM and X-ray diffraction analysis. Diffusion electron spectroscopy has been used to analyze the amount absorption of the dye on the surface of the various TNT, which acknowledges the direct co relation between the dye absorption and morphology of the sample.
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