Zirconium oxide-based cathode prepared by partial oxidation of carbonitrides as non-precious metal cathode for polymer electrolyte fuel cells

机译：通过碳氮化物的部分氧化制备的氧化锆基阴极，作为聚合物电解质燃料电池的非贵金属阴极

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Group 4 and 5 metal oxide-based compounds such as partially oxidized tantalum carbonitride, ZrO_(2-x), ZrO_xN_y, TiO_(2-x), and TaC_xN_y might be candidates for the new cathode material of polymer electrolyte fuel cells, if they have high catalytic activity for oxygen reduction. These materials are stable in acidic and oxidative atmosphere. A significant cost reduction of PEFCs might be possible using these materials. In this paper, we prepared partially oxidized zirconium carbonitrides (Zr-CNOs) at various heat treatment temperatures. The dependences of the heat treatment temperature on the crystalline structure and the ORR activity of the Zr-CNOs were investigated to obtain the principle of oxide-based catalyst design.

机译：第4和第5组金属氧化物基化合物（例如部分氧化的碳氮化钽，ZrO_（2-x），ZrO_xN_y，TiO_（2-x）和TaC_xN_y）可能是聚合物电解质燃料电池新正极材料的候选材料具有较高的催化活性以减少氧气。这些材料在酸性和氧化性气氛中稳定。使用这些材料可能会大大降低PEFC的成本。在本文中，我们在各种热处理温度下制备了部分氧化的碳氮化锆（Zr-CNOs）。研究了热处理温度对Zr-CNOs晶体结构和ORR活性的依赖性，从而获得了基于氧化物的催化剂设计原理。

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《Advances in low temperature electrolyzer and fuel cell technology: In honor of Anthony B. (Tony) LaConti》|2013年|1-8|共8页
会议地点 Toronto(CA)
作者
Ken-ichiro Ota; Yoshiro Ohgi; Koichi Matsuzawa; Shigenori Mitsushima; Akimitsu Ishihara;
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Green Hydrogen Research Center, Yokohama National University 79-5 Tokiwadai, Hodogaya-ku, Yokohama 240-8501, JAPAN;

Green Hydrogen Research Center, Yokohama National University 79-5 Tokiwadai, Hodogaya-ku, Yokohama 240-8501, JAPAN,Kumamoto Industrial Research Institute, Kumamoto, Japan;

Green Hydrogen Research Center, Yokohama National University 79-5 Tokiwadai, Hodogaya-ku, Yokohama 240-8501, JAPAN;

Green Hydrogen Research Center, Yokohama National University 79-5 Tokiwadai, Hodogaya-ku, Yokohama 240-8501, JAPAN;

Green Hydrogen Research Center, Yokohama National University 79-5 Tokiwadai, Hodogaya-ku, Yokohama 240-8501, JAPAN;

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1. Progress in non-precious metal oxide-based cathode for polymer electrolyte fuel cells [J] . Akimitsu Ishihara, Yoshiro Ohgi, Koichi Matsuzawa, Electrochimica Acta . 2010,第27期

机译：高分子电解质燃料电池用非贵金属氧化物阴极的研究进展
2. Development of group 4 and 5 metal oxide-based cathodes for polymer electrolyte fuel cell [J] . Ken-ichiro Ota, Yoshiro Ohgi, Kyung-Don Nam, Journal of power sources . 2011,第12期

机译：开发用于聚合物电解质燃料电池的4和5组金属氧化物基阴极
3. Partially Oxidized Tantalum Carbonitride as New Cathodes Without Platinum Group Metals for Polymer Electrolyte Fuel Cell [J] . Akimitsu Ishihara Motoko Tamura Koichi Matsuzawa Shigenori Mitsushima and Ken-ichiro Ota Journal of Fuel Cell Science and Technology . 2011,第3期

机译：部分氧化的碳氮化钽作为无铂族金属的新型阴极，用于聚合物电解质燃料电池
4. Zirconium oxide-based cathode prepared by partial oxidation of carbonitrides as non-precious metal cathode for polymer electrolyte fuel cells [C] . Ken-ichiro Ota, Yoshiro Ohgi, Koichi Matsuzawa, Symposium on advances in low temperature electrolyzer and fuel cell technology: In honor of Anthony B. (Tony) LaConti . 2013

机译：基于氧化锆的阴极通过将碳氮化物的部分氧化为非贵金属阴极，用于聚合物电解质燃料电池
5. Thermodynamic and kinetic study of mixed metal oxide cathode material for lithium organic polymer electrolyte electrochemical cells. [D] . Atwater, Terrill Bradford. 1997

机译：锂有机聚合物电解质电化学电池混合金属氧化物正极材料的热力学和动力学研究。
6. Zirconium Oxynitride-Catalyzed Oxygen Reduction Reactionat Polymer Electrolyte Fuel Cell Cathodes [O] . Mitsuharu Chisaka, *, Akimitsu Ishihara, 2017

机译：氧氮化锆催化的氧还原反应在聚合物电解质燃料电池阴极上
7. Challenge of Non-precious Metal Oxide-Based Cathode for Polymer Electrolyte Fuel Cell [O] . Ishihara A., Matsuzawa K., Mitsushima S., 2010

机译：非贵金属氧化物基阴极对聚合物电解质燃料电池的挑战
8. Exploratory fuel-cell research: I. Direct-hydrocarbon polymer-electrolyte fuel cell. II. Mathematical modeling of fuel-cell cathodes [R] . Perry, M. L. , McLarnon, F. R. , Newman, J. S. , 1996

机译：探索性燃料电池研究：I。直接烃类聚合物电解质燃料电池。 II。燃料电池阴极的数学模型

Zirconium oxide-based cathode prepared by partial oxidation of carbonitrides as non-precious metal cathode for polymer electrolyte fuel cells

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