染料敏化太阳能电池从非洲木槿和木槿中提取蒽氰染料的溶剂选择

T. Satish Kumar , S. Shalini , T. Anurag Roy , S. Prasanna , R. Balasundaraprabhu , Senthilarasu Sundaram
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摘要

非洲鸢尾(Kigelia Africana)花瓣和木槿(Hibiscus sabdariffa)花萼中的主要类黄酮色素是花青素,它能使花朵呈现出鲜艳的红色、褐红色和紫色。这种色素可以调节花朵上的入射光,因此被选中进行详细研究。研究人员采用一步水热法合成了 TiO2 纳米结构,并通过 FESEM 和 XRD 分析分别揭示了纳米棒和单相金红石结构的形成。该研究旨在评估各种溶剂对天然染料萃取的影响,然后将天然染料敏化在 TiO2 光阳极上,用于 DSSC 应用。研究采用了四种溶剂--水、含盐酸的水、乙醇和柠檬酸--从非洲鸢尾(Kigelia Africana)花瓣和木槿(Hibiscus sabdariffa)花萼中提取天然染料。值得注意的是,用柠檬酸提取的染料显示出良好的效果。使用柠檬酸作为溶剂萃取的非洲木槿染料和芙蓉染料制造的 DSSC 转换效率分别为 0.87 % 和 0.92 %。本文讨论了这些发现的意义。
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Solvent selection for anthrocyanin dye extraction from Kigelia Africana and Hibiscus sabdariffa for dye sensitized solar cells

The main flavonoid pigment in the petals of Kigelia Africana and the calyx of Hibiscus sabdariffa is anthocyanin, responsible for the vibrant red, maroon, and purple hues in flowers. This pigment can modulate incident light on flowers, prompting its selection for detailed investigation. TiO2 nanostructures were synthesized using a one-step hydrothermal method, revealing the formation of nanorods and a single-phase rutile structure through FESEM and XRD analyses, respectively. The study aimed to assess the impact of various solvents on the extraction of natural dyes, which were subsequently sensitized on TiO2 photoanodes for DSSC applications. Four solvents-water, water with HCl, ethanol, and citric acid were employed to extract natural dyes from Kigelia Africana's petals and Hibiscus sabdariffa's calyx. Notably, dyes extracted with citric acid demonstrated promising results. The conversion efficiency of DSSCs fabricated with Kigelia Africana dye and Hibiscus sabdariffa dye, extracted using citric acid as the solvent, was found to be 0.87 % and 0.92 %, respectively. The implications of these findings are discussed.

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