Shunsuke Yagi Associate Professor
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+81-3-5452-6327 |
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+81-3-5452-6328 |
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syagi[at]iis.u-tokyo.ac.jp
* In your correspondence, please replace [at] with "@" in the above email address. |
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http://www.yagi.iis.u-tokyo.ac.jp |
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rechargeable battery, electrochemical reaction, surface treatment, ㎝orrosion |
Research
We investigate energy storage and energy conversion materials for the efficient use of electrical energy, and synthesis processes of functional materials via electrochemical operation. Current research topics are as follows:
(1) Next-generation rechargeable battery materials using multivalent cations as carieer ions.
(2) Design and evaluation of electrochemical catalysts.
(3) Anticorrosion technologies using electrochemical operation.
(4) Synthesis of metallic nanomaterials by wet processes.
主要研究論文
1) I. Yamada, A. Takamatsu, K. Asai, H. Ohzuku, T. Shirakawa, T. Uchimura, S. Kawaguchi, H. Tsukasaki, S. Mori, K. Wada, H. Ikeno, and S. Yagi, "Synergistically Enhanced Oxygen Evolution Reaction Catalysis for Multi-Element Transition-Metal Oxides", ACS Appl. Energy Mater., 1(8), 3711-3721 (2018).
2) I. Yamada, H. Fujii, A. Takamatsu, H. Ikeno, K. Wada, H. Tsukasaki, S. Kawaguchi, S. Mori, and S. Yagi: "Bifunctional Oxygen Reaction Catalysis of Quadruple Manganese Perovskites", Adv. Mater., 29 (2017) 1603004.
3) S. Yagi, I. Yamada, H. Tsukasaki, A. Seno, M. Murakami, H. Fujii, H. Chen, N. Umezawa, H. Abe, N. Nishiyama, S. Mori: "Covalency-reinforced oxygen evolution reaction catalyst", Nature Commun., 6 (2015) 8249.
4) S. Yagi, M. Fukuda, T. Ichitsubo, K. Nitta, M. Mizumaki, E. Matsubara: "EQCM analysis of Redox Behavior of CuFe Prussian Blue Analog in Mg Battery Electrolytes", J. Electrochem. Soc., 162(12) (2015) A2356-A2361.