在高温聚合物电解质燃料电池中，负载在三维纳米多孔碳上的耐用 Pt 电催化剂表现出优异的性能。

Durable Pt Electrocatalyst Supported on a 3D Nanoporous Carbon Shows High Performance in a High-Temperature Polymer Electrolyte Fuel Cell.

机构信息

†Department of Applied Chemistry, Graduate School of Engineering, Kyushu University, 744 Motooka, Nishi-ku, Fukuoka 819-0395, Japan.

‡Division of Chemistry and Materials Science, Graduate School of Engineering, Nagasaki University, 1-14 Bunkyo-Machi, Nagasaki 852-8521, Japan.

出版信息

ACS Appl Mater Interfaces. 2015 May 13;7(18):9800-6. doi: 10.1021/acsami.5b01724. Epub 2015 May 1.

DOI:10.1021/acsami.5b01724

PMID:25902007

Abstract

In this paper, we used a 3D nanoporous carbon (NanoPC) with a high specific surface area of 1037 m(2)/g as a carbon support for high-temperature polymer electrolyte fuel cell, and fabricated an electrocatalyst (NanoPC/PyPBI/Pt) having platinum nanoparticles of ∼2.2 nm diameter deposited on the NanoPC that was wrapped by poly[2,2'-(2,6-pyridine)-5,5'-bibenzimidazole] (PyPBI). Even after 10,000 start-up/shutdown cycles in the range of 1.0 to 1.5 V vs. RHE, the NanoPC/PyPBI/Pt showed almost no loss in electrochemical surface area (ECSA), which indicated much higher durability than those of a CB/PyPBI/Pt (∼32% loss), in which conventional carbon black (CB) was used in place of the NanoPC, and conventional CB/Pt (∼46% loss). The power density of the NanoPC/PyPBI/Pt was 342 mW/cm(2), which was much higher than those of the CB/PyPBI/Pt (183 mW/cm(2)) and CB/Pt (115 mW/cm(2)).

摘要

在本文中，我们使用具有 1037 m²/g 高比表面积的三维纳米多孔碳（NanoPC）作为高温聚合物电解质燃料电池的碳载体，并制备了一种电催化剂（NanoPC/PyPBI/Pt），其中有约 2.2nm 直径的铂纳米颗粒沉积在被聚[2,2'-(2,6-吡啶)-5,5'-联苯二咪唑]（PyPBI）包裹的 NanoPC 上。即使在 1.0 至 1.5 V 与 RHE 之间进行了 10000 次启动/关闭循环后，NanoPC/PyPBI/Pt 几乎没有失去电化学表面积（ECSA），这表明其耐久性远高于使用传统碳黑（CB）代替 NanoPC 的 CB/PyPBI/Pt（约 32%的损失）和常规的 CB/Pt（约 46%的损失）。NanoPC/PyPBI/Pt 的功率密度为 342 mW/cm²，远高于 CB/PyPBI/Pt（183 mW/cm²）和 CB/Pt（115 mW/cm²）。

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在高温聚合物电解质燃料电池中，负载在三维纳米多孔碳上的耐用 Pt 电催化剂表现出优异的性能。

Durable Pt Electrocatalyst Supported on a 3D Nanoporous Carbon Shows High Performance in a High-Temperature Polymer Electrolyte Fuel Cell.

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