참고문헌 (37)

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5. Sim, Uk, Yang, Tae-Youl, Moon, Joonhee, An, Junghyun, Hwang, Jinyeon, Seo, Jung-Hye, Lee, Jouhahn, Kim, Kye Yeop, Lee, Joohee, Han, Seungwu, Hong, Byung Hee, Nam, Ki Tae. N-doped monolayer graphene catalyst on silicon photocathode for hydrogen production. Energy & environmental science, vol.6, no.12, 3658-3664.

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14. Menezes, Prashanth W., Indra, Arindam, Littlewood, Patrick, Schwarze, Michael, Göbel, Caren, Schomäcker, Reinhard, Driess, Matthias. Nanostructured Manganese Oxides as Highly Active Water Oxidation Catalysts: A Boost from Manganese Precursor Chemistry. ChemSusChem, vol.7, no.8, 2202-2211.

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15. Zaharieva, Ivelina, Chernev, Petko, Risch, Marcel, Klingan, Katharina, Kohlhoff, Mike, Fischer, Anna, Dau, Holger. Electrosynthesis, functional, and structural characterization of a water-oxidizing manganese oxide. Energy & environmental science, vol.5, no.5, 7081-7089.

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16. Kuo, Chung-Hao, Mosa, Islam M., Poyraz, Altug S., Biswas, Sourav, El-Sawy, Abdelhamid M., Song, Wenqiao, Luo, Zhu, Chen, Sheng-Yu, Rusling, James F., He, Jie, Suib, Steven L.. Robust Mesoporous Manganese Oxide Catalysts for Water Oxidation. ACS catalysis, vol.5, no.3, 1693-1699.

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17. Meng, Yongtao, Song, Wenqiao, Huang, Hui, Ren, Zheng, Chen, Sheng-Yu, Suib, Steven L.. Structure–Property Relationship of Bifunctional MnO₂ Nanostructures: Highly Efficient, Ultra-Stable Electrochemical Water Oxidation and Oxygen Reduction Reaction Catalysts Identified in Alkaline Media. Journal of the American Chemical Society, vol.136, no.32, 11452-11464.

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18. Takashima, Toshihiro, Hashimoto, Kazuhito, Nakamura, Ryuhei. Mechanisms of pH-DependentActivity for Water Oxidationto Molecular Oxygen by MnO₂ Electrocatalysts. Journal of the American Chemical Society, vol.134, no.3, 1519-1527.

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19. Takashima, Toshihiro, Hashimoto, Kazuhito, Nakamura, Ryuhei. Inhibition of Charge Disproportionation of MnO₂ Electrocatalysts for Efficient Water Oxidation under Neutral Conditions. Journal of the American Chemical Society, vol.134, no.44, 18153-18156.

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20. Robinson, David M., Go, Yong Bok, Mui, Michelle, Gardner, Graeme, Zhang, Zhijuan, Mastrogiovanni, Daniel, Garfunkel, Eric, Li, Jing, Greenblatt, Martha, Dismukes, G. Charles. Photochemical Water Oxidation by Crystalline Polymorphs of Manganese Oxides: Structural Requirements for Catalysis. Journal of the American Chemical Society, vol.135, no.9, 3494-3501.

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22. Park, Jimin, Kim, Hyunah, Jin, Kyoungsuk, Lee, Byung Ju, Park, Yong-Sun, Kim, Hyungsub, Park, Inchul, Yang, Ki Dong, Jeong, Hui-Yun, Kim, Jongsoon, Hong, Koo Tak, Jang, Ho Won, Kang, Kisuk, Nam, Ki Tae. A New Water Oxidation Catalyst: Lithium Manganese Pyrophosphate with Tunable Mn Valency. Journal of the American Chemical Society, vol.136, no.11, 4201-4211.

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23. Jin, Kyoungsuk, Chu, Arim, Park, Jimin, Jeong, Donghyuk, Jerng, Sung Eun, Sim, Uk, Jeong, Hui-Yun, Lee, Chan Woo, Park, Yong-Sun, Yang, Ki Dong, Kumar Pradhan, Gajendra, Kim, Donghun, Sung, Nark-Eon, Hee Kim, Sun, Nam, Ki Tae. Partially Oxidized Sub-10 nm MnO Nanocrystals with High Activity for Water Oxidation Catalysis. Scientific reports, vol.5, 10279-.

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25. Feitknecht, W.. Einfluss der Teilchengrösse auf den Mechanismus von Festkörperreaktionen. Pure and applied chemistry. : Chimie pure et appliqueé, vol.9, no.3, 423-440.

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26. OSWALD, H. R., FEITKNECHT, W., WAMPETICH, M. J.. Crystal Data of Mn5O8 and Cd2Mn3O8. Nature, vol.207, no.4992, 72-72.

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27. Oswald, H. R., Wampetich, M. J.. Die Kristallstrukturen von Mn₅O₈ und Cd₂Mn₃O₈. Helvetica chimica acta, vol.50, no.7, 2023-2034.

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28. 10.1107/S0567740882007201 

    

29. Tian, Zheng-Rong, Tong, Wei, Wang, Jin-Yun, Duan, Nian-Gao, Krishnan, Venkatesan V., Suib, Steven L.. Manganese Oxide Mesoporous Structures: Mixed-Valent Semiconducting Catalysts. Science, vol.276, no.5314, 926-930.

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30. Trotochaud, Lena, Ranney, James K., Williams, Kerisha N., Boettcher, Shannon W.. Solution-Cast Metal Oxide Thin Film Electrocatalysts for Oxygen Evolution. Journal of the American Chemical Society, vol.134, no.41, 17253-17261.

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31. Gong, Ming, Li, Yanguang, Wang, Hailiang, Liang, Yongye, Wu, Justin Z., Zhou, Jigang, Wang, Jian, Regier, Tom, Wei, Fei, Dai, Hongjie. An Advanced Ni–Fe Layered Double Hydroxide Electrocatalyst for Water Oxidation. Journal of the American Chemical Society, vol.135, no.23, 8452-8455.

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32. Zou, Xiaoxin, Goswami, Anandarup, Asefa, Tewodros. Efficient Noble Metal-Free (Electro)Catalysis of Water and Alcohol Oxidations by Zinc–Cobalt Layered Double Hydroxide. Journal of the American Chemical Society, vol.135, no.46, 17242-17245.

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33. Song, Fang, Hu, Xile. Ultrathin Cobalt–Manganese Layered Double Hydroxide Is an Efficient Oxygen Evolution Catalyst. Journal of the American Chemical Society, vol.136, no.47, 16481-16484.

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34. Jin, Kyoungsuk, Park, Jimin, Lee, Joohee, Yang, Ki Dong, Pradhan, Gajendra Kumar, Sim, Uk, Jeong, Donghyuk, Jang, Hae Lin, Park, Sangbaek, Kim, Donghun, Sung, Nark-Eon, Kim, Sun Hee, Han, Seungwu, Nam, Ki Tae. Hydrated Manganese(II) Phosphate (Mn₃(PO₄)₂·3H₂O) as a Water Oxidation Catalyst. Journal of the American Chemical Society, vol.136, no.20, 7435-7443.

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35. Gao, Tao, Norby, Poul, Krumeich, Frank, Okamoto, Hiroshi, Nesper, Reinhard, Fjellvåg, Helmer. Synthesis and Properties of Layered-Structured Mn₅O₈ Nanorods. The journal of physical chemistry. C, Nanomaterials and Interfaces, vol.114, no.2, 922-928.

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36. Klewicki, J.K., Morgan, J.J.. Dissolution of β-MnOOH particles by ligands: pyrophosphate, ethylenediaminetetraacetate, and citrate. Geochimica et cosmochimica acta, vol.63, no.19, 3017-3024.

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37. Klewicki, J. K., Morgan, J. J.. Kinetic Behavior of Mn(III) Complexes of Pyrophosphate, EDTA, and Citrate. Environmental science & technology, vol.32, no.19, 2916-2922.

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