Efficiency Enhancement of Cocktail Dye of Ixora coccinea and Tradescantia spathacea in DSSC

Journal of Biophysics Pub Date : 2015-12-17 DOI:10.1155/2015/582091

Zularif Zolkepli, Andery Lim, P. Ekanayake, K. Tennakoon

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引用次数: 19

Abstract

The use of anthocyanin dyes extracted from epidermal leaves of Tradescantia spathacea (Trant) and petals of Ixora coccinea (IX) was evaluated in the application of dye-sensitized solar cells (DSSCs). Subsequently, cocktail anthocyanin dyes from these dyes were prepared and how they enhanced the cell's overall performance was assessed using five different volume-to-volume ratios. Cocktail dyes absorbed a wider range of light in the visible region, thus increasing the cell efficiencies of the cocktail dyes when compared to the DSSC sensitized by individual dyes. The surface charge (zeta-potential), average size of aggregated anthocyanin molecules (zetasizer), and anthocyanin stability in different storage temperatures were analyzed and recorded. Lower size of aggregated dye molecules as revealed from the cocktail dyes ensured better adsorption onto the TiO2 film. Tradescantia/Ixora pigments mixed in 1 : 4 ratio showed the highest cell efficiency of η = 0.80%, under the irradiance of 100 mW cm−2, with a short-circuit current density 4.185 mA/cm2, open-circuit voltage of 0.346 V, and fill factor of 0.499. It was found that the desired storage temperature for these cocktail dyes to be stable over time was −20°C, in which the anthocyanin half-life was about approximately 1727 days.

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鸡尾草和鸡翅草鸡尾酒染料在DSSC中的增效作用

研究了从spathacea (Trant)的表皮叶和Ixora coccinea (IX)的花瓣中提取的花青素染料在染料敏化太阳能电池(DSSCs)中的应用。随后，从这些染料中制备鸡尾酒花青素染料，并使用五种不同的体积比评估它们如何增强细胞的整体性能。鸡尾酒染料在可见光区域吸收了更大范围的光，因此，与单个染料敏化的DSSC相比，鸡尾酒染料提高了细胞效率。分析并记录了花青素在不同贮藏温度下的表面电荷(ζ电位)、聚集分子的平均大小(ζ诱变剂)和稳定性。从鸡尾酒染料中可以看出，较小尺寸的聚集染料分子确保了TiO2膜上更好的吸附。在辐照度为100 mW cm−2、短路电流密度为4.185 mA/cm2、开路电压为0.346 V、填充系数为0.499的条件下，以1:4比例混合的Tradescantia/Ixora颜料的电池效率最高，η = 0.80%。结果表明，在- 20℃的贮存温度下，这些鸡尾酒染料的花青素半衰期约为1727天。

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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Journal of Biophysics

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