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Electrocatalyst Durability under Simulated Automotive Drive Cycles

机译：模拟汽车行驶周期下的电催化剂耐久性

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Proton Exchange membrane fuel cells (PEMFCs) for automotive applications are subject to hundreds of thousands of potential or load cycles during normal operation of the vehicle. Pt dissolves under such cycling and is a major contributing factor to the lowered durability of PEMFCs. This paper details the effect of various simplified potential-cycle profiles, the effect of operating conditions such as temperature, relative humidity, reactant gases etc., as well as different catalyst materials under normal fuel cell operating voltage ranges (0.95-0.60V) in fuel cells. Results on Pt dissolution utilizing complementary ex-situ methods are also presented. The fundamental and practical implications of varying the operating parameters as well as a possible hypothesis for Pt dissolution are reported.

机译：用于汽车应用的质子交换膜燃料电池（PEMFC）在车辆正常运行期间会承受数十万次电势或负载循环。在这种循环下，Pt溶解并且是导致PEMFC耐久性降低的主要因素。本文详细介绍了各种简化的电位循环曲线的影响，温度，相对湿度，反应气体等工作条件的影响以及在正常燃料电池工作电压范围（0.95-0.60V）下的不同催化剂材料的影响。燃料电池。还介绍了利用互补的异位方法进行铂溶解的结果。报告了改变操作参数的基本和实际含义以及可能的Pt溶解假说。

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来源
《Proton Exchange Membrane Fuel Cells 8 》|2008年|225-234|共10页
会议地点 HonoluluIL(US);HonoluluIL(US)
作者
Masanobu Uchimura; Seiho Sugawara; Yosuke Suzuki; Jianbo Zhang; Shyam S. Kocha;
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作者单位

Nissan Research Center, Fuel Cell Laboratory, 1, Natsushima-cho, Yokosuka, Japan;

Nissan Research Center, Fuel Cell Laboratory, 1, Natsushima-cho, Yokosuka, Japan;

Nissan Research Center, Fuel Cell Laboratory, 1, Natsushima-cho, Yokosuka, Japan;

Nissan Research Center, Fuel Cell Laboratory, 1, Natsushima-cho, Yokosuka, Japan;

Nissan Research Center, Fuel Cell Laboratory, 1, Natsushima-cho, Yokosuka, Japan;

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正文语种 eng
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1. Durability of Pt/C and Pt/MC-PEDOT Catalysts under Simulated Start-Stop Cycles in Polymer Electrolyte Fuel Cells [J] . K. K. Tintula, A. Jalajakshi, A. K. Sahu, Fuel cells . 2013 ,第2期

机译：Pt / C和Pt / MC-PEDOT催化剂在聚合物电解质燃料电池的模拟起停循环中的耐久性
2. Journey Mapping—A New Approach for Defining Automotive Drive Cycles [J] . Kavya P. Divakarla, Ali Emadi, Saiedeh N. Razavi Industry Applications, IEEE Transactions on . 2016 ,第6期

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3. Molecular M-N_4 macrocycles in a nitrogen-carbon matrix as a highly durable oxygen reduction reaction (ORR) electrocatalysts in acid media [J] . Yoon Jaepil, Kim Seonghee, Park Hyun, Materials Letters . 2021 ,第MAYa15期

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4. Electrocatalyst Durability under Simulated Automotive Drive Cycles [C] . Masanobu Uchimura, Seiho Sugawara, Yosuke Suzuki, Symposium on Proton Exchange Membrane Fuel Cells . 2008

机译：模拟汽车驱动循环下的电催化剂耐久性
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6. A-Site Cation-Ordering Layered Perovskite EuBa0.5Sr0.5Co2–xFexO5+δ as Highly Activeand Durable Electrocatalysts for Oxygen Evolution Reaction [O] . Xiu Wang, Yingnan Dou, Ying Xie, 2020

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8. Comparison of Battery Life Across Real-World Automotive Drive-Cycles. [R] . Smith, K., Earleywind, M., Wood, E., 2011

机译：实际汽车驱动周期的电池寿命比较。

Electrocatalyst Durability under Simulated Automotive Drive Cycles

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