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Efficiency improvement of the DSSCs by building the carbon black as bridge in photoelectrode

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  • Ting, Chen-Ching
  • Chao, Wei-Shi

Abstract

In general, the dye-sensitized nano-solar cell (DSSC) uses nano-metallic oxide, e.g. nano-TiO2, as N-type semiconductor integrated with dye to build its photoelectrode. The applied dye in connection with the metallic oxide in photoelectrode helps the DSSC to expand its absorption spectra into visible spectrum. This work added nano-carbon black in photoelectrode and used the nano-carbon black as bridge between the nano-TiO2 and the alizarin yellow. Experiments used spray technique to build the nano-TiO2 layer with ca. 67% light transmittance on the ITO glass as the semiconduction photoelectrode. The sintering process was for 60Â min. The carbon black and the alizarin yellow had been first mixed as liquid solution before the semiconduction photoelectrode was immersed in it. The three kinds of nano-particles are connected each other and built in a triangular structure according to the compared results of three possible structural integrations in this work. The added carbon black played the role of catalyst to help electrons excitation of the alizarin yellow and enhanced the conductive band of the nano-TiO2. The results show that the photoelectric conversion efficiency of the improved DSSCs has ca. double increasement and its open-circuit voltage increases from ca. 0.5Â V to ca. 0.6Â V. The short-circuit current variation depends on added amount of the carbon black and receives the result, the larger the added amount, the bigger the short-circuit current.

Suggested Citation

  • Ting, Chen-Ching & Chao, Wei-Shi, 2010. "Efficiency improvement of the DSSCs by building the carbon black as bridge in photoelectrode," Applied Energy, Elsevier, vol. 87(8), pages 2500-2505, August.
    • Handle: RePEc:eee:appene:v:87:y:2010:i:8:p:2500-2505
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    Citations

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    Cited by:

    1. Kang, H.Y. & Wang, H. Paul, 2012. "Cu@C dispersed TiO2 for dye-sensitized solar cell photoanodes," Applied Energy, Elsevier, vol. 100(C), pages 144-147.
    2. Wu, Chun-Te & Kuo, Hsiu-Po & Tsai, Hung-An & Pan, Wen-Chueh, 2012. "Rapid dye-sensitized solar cell working electrode preparation using far infrared rapid thermal annealing," Applied Energy, Elsevier, vol. 100(C), pages 138-143.
    3. Battista, Luigi & Mecozzi, Laura & Coppola, Sara & Vespini, Veronica & Grilli, Simonetta & Ferraro, Pietro, 2014. "Graphene and carbon black nano-composite polymer absorbers for a pyro-electric solar energy harvesting device based on LiNbO3 crystals," Applied Energy, Elsevier, vol. 136(C), pages 357-362.
    4. Chou, Chuen-Shii & Guo, Ming-Geng & Liu, Kuan-Hung & Chen, Yi-Siang, 2012. "Preparation of TiO2 particles and their applications in the light scattering layer of a dye-sensitized solar cell," Applied Energy, Elsevier, vol. 92(C), pages 224-233.
    5. He, Yan-Rong & Yan, Fang-Fang & Yu, Han-Qing & Yuan, Shi-Jie & Tong, Zhong-Hua & Sheng, Guo-Ping, 2014. "Hydrogen production in a light-driven photoelectrochemical cell," Applied Energy, Elsevier, vol. 113(C), pages 164-168.
    6. Wang, Xiaoyue & Li, Haibo & Liu, Yong & Zhao, Wenxia & Liang, Chaolun & Huang, Hong & Mo, Delin & Liu, Zhong & Yu, Xiao & Deng, Youjun & Shen, Hui, 2012. "Hydrothermal synthesis of well-aligned hierarchical TiO2 tubular macrochannel arrays with large surface area for high performance dye-sensitized solar cells," Applied Energy, Elsevier, vol. 99(C), pages 198-205.
    7. Hug, Hubert & Bader, Michael & Mair, Peter & Glatzel, Thilo, 2014. "Biophotovoltaics: Natural pigments in dye-sensitized solar cells," Applied Energy, Elsevier, vol. 115(C), pages 216-225.
    8. Babar, Falak & Mehmood, Umer & Asghar, Hafza & Mehdi, M. Hassan & Khan, Anwar Ul Haq & Khalid, Hamza & Huda, Noor ul & Fatima, Zaira, 2020. "Nanostructured photoanode materials and their deposition methods for efficient and economical third generation dye-sensitized solar cells: A comprehensive review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 129(C).

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