姜黄素天然染料提取物制备纳米氧化锌电极的研究

T. Win, Y. Maung, Ko Ko, K. Soe
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引用次数: 14

摘要

首次采用水热法在低温条件下制备氧化锌粉体。采用x射线衍射(XRD)研究了ZnO粉体的结构性能。通过轧制将ZnO胶体溶液沉积在ITO/玻璃上。经空气干燥后,在300℃、400℃的O2、常压环境中退火1 h,表面处理为将烧结好的ZnO薄膜浸入0.1 M HCl中,用DIW洗涤,室温干燥。姜黄素,一种在姜黄根中发现的黄橙色染料,被用作光敏剂,并被精心制备以避免褪色。然后,将ZnO薄膜在染料溶液中浸泡15 h,制备出高性能的碳对电极作为对电极。两个玻璃载玻片被偏移,并用两个夹子将电极固定在一起。对ZnO电池的光伏响应进行了测试,并对DSSC的应用前景进行了展望。发现DSSC在400℃时的转化效率(0.129%)大于电池在300℃时的转化效率(0.117%)。
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Characterization of Nano-sized ZnO Electrodes with Curcumin- derived Natural Dye Extract for DSSC Application
Zinc oxide (ZnO) powder was first prepared by hydrothermal synthesis at low temperature. X-ray diffraction (XRD) investigation was carried out to examine the structural properties of ZnO powder. ZnO colloidal solution was deposited onto ITO/glass by rolling. After air drying, annealing in O2, atmospheric ambient was performed at 300 C and 400 C for 1 h. As the surface treatment, sintered ZnO film was immersed in 0.1 M HCl, washed with DIW and dried at room temperature. The Curcumin, a yellow-orange dye found in turmeric root, was used as a photosensitizer and was carefully prepared to avoid colour fading. Next, the ZnO film was dipped in dye solution for 15 h. High performance carbon counter electrode was prepared and used as a counter electrode. Two glass slides were offset and two binder clips were used to hold the electrodes together. Photovoltaic response of ZnO cell was measured and it was expected to utilize the DSSC application. The conversion efficiency of DSSC at 400oC (0.129%) was found to be larger than that of the cell at 300oC (0.117%).
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