Abstract
At present, it is necessary to realize low cost as a concrete technical means to cope with global warming. From this point of view, the “wet solar cell” is expected to be a “next-generation power generation system” Among wet-type solar cells, it is that electric power can be obtained simply by exposing a semiconductor film of titanium oxide coated with pigment (dye) to the electrolyte. This dye-sensitized solar cell (dye-sensitized cell) can realize a low-cost battery system. Currently, the issues of dye-sensitized solar cell research are the optimization of high-efficiency electrode materials, the development of more inexpensive dyes, and the improvement of durability. This chapter introduces a case study applying the conference matrices.
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References
Mori, T., Nasuda, T., & Hosen, M. (2009). 40th Chubu chemistry-related society autumn conference 1E03. In Optimal research on light-power conversion materials for dye-sensitized solar cells. Gifu University, November 7, 2009.
Mori, T., Nasuda, T., Hosen, M., & Sonoda, Y. (2009). The 76th annual meeting of the electrochemical society of Japan, 3Q13. In Method for searching for efficient and optimal conditions for MEA composition of polymer proton exchange (PEFC) fuel cells. Gifu University, March 29.
Yamada, N. (2017). Dye-Sensitized solar cells. Kagaku to Kyoiku, 66(7), 352–355.
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Mori, T. (2024). Optimization the Material Components for Dye-Sensitized Solar Cells Using Conference Matrices. In: Conference Matrices for Optimizing and Applications. Springer, Singapore. https://doi.org/10.1007/978-981-99-6839-8_13
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DOI: https://doi.org/10.1007/978-981-99-6839-8_13
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