Characterization of M-curcumin complexes (M= Cu, Co, Ag) in turmeric rhizome as sensitizer candidates in dye-sensitized solar cell (DSSC)

Ainun Jariah, S. Hadisaputra, A. Purwoko
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Abstract

This experimental research aims to characterize the complex compound M-curcumin (M=Cu, Co, Ag) based on turmeric (Curcuma longa Linn) rhizome as a candidate for photosensitizer in solar cells. The basic material used for manufacturing the M-curcumin complex compound in this study was curcumin from turmeric rhizome extract added to Cu2+, Co2+, and Ag+ metal ions. The results of the synthesis of the M-curcumin complex were characterized by FTIR and Uv-Vis spectrophotometers. The FTIR spectrophotometer test showed a curcumin compound in the viscous curcumin extract, characterized by an absorption wave number corresponding to the curcumin compound. In the M-curcumin complex, the bond between the metal and the ligand only appears in the Co-curcumin complex at the absorption number of 498.77 cm -1. The results of the UV-Vis spectrophotometer test showed that the maximum wavelength absorption in curcumin extract was 430 nm (abs = 0.688), Cu-Curcumin complex lmax 300 nm (abs = 2.573), Co-curcumin complex lmax 425 nm (abs = 1.067), and complex Ag-Curcumin lmax 430 nm (abs = 1.36). The UV-Vis and FTIR characterization showed that the Co-curcumin complex has good potential compared to the organic compounds (curcumin) and can be used as an alternative photosensitizer in solar cells
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姜黄根茎中M-姜黄素络合物(M= Cu, Co, Ag)作为染料敏化太阳能电池(DSSC)敏化剂的研究
本实验研究旨在表征基于姜黄根茎的复合化合物M-姜黄素(M=Cu, Co, Ag)作为太阳能电池光敏剂的候选化合物。本研究以姜黄根茎提取物中的姜黄素为基础原料,加入Cu2+、Co2+和Ag+金属离子,制备m -姜黄素复合物。用红外光谱和紫外可见分光光度计对m -姜黄素配合物的合成结果进行了表征。FTIR分光光度计测试表明,黏性姜黄素提取物中存在姜黄素化合物,其吸收波数与姜黄素化合物对应。在m -姜黄素络合物中,金属与配体之间的键只出现在co -姜黄素络合物中,吸收数为498.77 cm -1。紫外可见分光光度计测试结果表明,姜黄素提取物的最大吸收波长为430 nm (abs = 0.688),铜-姜黄素配合物lmax为300 nm (abs = 2.573),共-姜黄素配合物lmax为425 nm (abs = 1.067), ag -姜黄素配合物lmax为430 nm (abs = 1.36)。紫外可见光谱(UV-Vis)和红外光谱(FTIR)表征表明,与有机化合物(姜黄素)相比,共姜黄素配合物具有良好的潜力,可作为太阳能电池的替代光敏剂
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