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Zirconium Oxynitride-Catalyzed Oxygen Reduction Reactionat Polymer Electrolyte Fuel Cell Cathodes

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

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摘要

Most nonplatinum group metal (non-PGM) catalysts for polymer electrolyte fuel cell cathodes have so far been limited to iron(cobalt)itrogen/carbon [Fe(Co)/N/C] composites owing to their high activity in both half-cell and single-cell cathode processes. Group IV and V metal oxides, another class of non-PGM catalysts, are stable in acidic media; however, their activities have been mostly evaluated for half-cells, with no single-cell performances comparable to those of Fe/N/C composites reported to date. Herein, we report successful syntheses of zirconium oxynitride catalysts on multiwalled carbon nanotubes, which show the highest oxygen reduction reaction activity among oxide-based catalysts. The single-cell performance of these catalysts reached 10 mA cm^–2 at 0.9 V, being comparable to that of state-of-the-art Fe/N/C catalysts. This new record opens up a new pathway for reaching the year 2020 target set by the U.S. Department of Energy, that is, 44 mA cm^–2 at 0.9 V.

机译：迄今为止，大多数用于聚合物电解质燃料电池阴极的非铂族金属（non-PGM）催化剂都限于铁（钴）/氮/碳[Fe（Co）/ N / C]复合材料，因为它们在两个半电池和单电池阴极工艺。 IV和V族金属氧化物是另一类非PGM催化剂，在酸性介质中稳定。然而，它们的活性主要针对半电池进行了评估，没有任何一个电池的性能可与迄今报道的Fe / N / C复合材料相媲美。在这里，我们报告成功地在多壁碳纳米管上合成了氮氧化锆催化剂，该催化剂在基于氧化物的催化剂中显示出最高的氧还原反应活性。这些催化剂在0.9 V时的单电池性能达到10 mA cm ^{–2 ，与最新的Fe / N / C催化剂相当。这项新记录为达到美国能源部设定的2020年目标开辟了一条新途径，即在0.9 V电压下达到44 mA cm ^{–2 。}}

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期刊名称 ACS Omega
作者
Mitsuharu Chisaka; *; Akimitsu Ishihara; Hiroyuki Morioka; Takaaki Nagai; Shihong Yin; Yoshiro Ohgi; Koichi Matsuzawa; Shigenori Mitsushima; Ken-ichiro Ota;
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年(卷),期 2017(2),2
年度 2017
页码 678–684
总页数 7
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1. Zirconium Oxynitride-Catalyzed Oxygen Reduction Reaction at Polymer Electrolyte Fuel Cell Cathodes [J] . Mitsuharu Chisaka, Akimitsu Ishihara, Hiroyuki Morioka, ACS Omega . 2017,第2期

机译：氧氮化锆催化聚合物电解质燃料电池阴极上的氧还原反应
2. Zirconium Oxynitride-Catalyzed Oxygen Reduction Reaction at Polymer Electrolyte Fuel Cell Cathodes [J] . Mitsuharu Chisaka, Akimitsu Ishihara, Hiroyuki Morioka, ACS Omega . 2017,第2期

机译：氧氮化锆催化聚合物电解质燃料电池阴极上的氧还原反应
3. Polymer Electrolyte Fuel Cells Employing Heteropolyacids as Redox Mediators for Oxygen Reduction Reactions: Pt-Free Cathode Systems [J] . Matsui Toshiaki, Morikawa Eri, Nakada Shintaro, ACS applied materials & interfaces . 2016,第28期

机译：使用杂多酸作为氧还原反应的氧化还原介体的聚合物电解质燃料电池：无铂阴极系统
4. Factors Which Affect Oxygen Reduction Activity of Niobium added Titanium Oxides as Non-Platinum Cathodes for Polymer Electrolyte Fuel Cells [C] . K. Ota, T. Nagai, Y. Tamura, Meeting of the Electrochemical Society . 2017

机译：影响铌加入氧化钛氧化物的氧还原活性的因素作为聚合物电解质燃料电池的非铂阴极
5. Study of a Platinum/Graphene Nanoflakes Catalyst for Oxygen Reduction Reaction of Polymer Electrolyte Membrane Fuel Cells [D] . Feroze, Md. Mahdi Salehin. 2019

机译：聚合物电解质膜燃料电池氧还原反应的铂/石墨烯纳米薄催化剂的研究
6. A Comprehensive Physical Impedance Model of Polymer Electrolyte Fuel Cell Cathodes in Oxygen-free Atmosphere [O] . Michael Obermaier, Aliaksandr S. Bandarenka, Cyrill Lohri-Tymozhynsky -1

机译：无氧气氛中聚合物电解质燃料电池阴极的综合物理阻抗模型
7. Zirconium Oxynitride-Catalyzed Oxygen Reduction Reaction at Polymer Electrolyte Fuel Cell Cathodes [O] . Mitsuharu Chisaka, Akimitsu Ishihara, Hiroyuki Morioka, 2017

机译：氮氧化锆催化的聚合物电解质燃料电池阴极氧还原反应
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 Oxynitride-Catalyzed Oxygen Reduction Reactionat Polymer Electrolyte Fuel Cell Cathodes

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