Nanoporous PdCo catalyst for microfuel cells: Electrodeposition and dealloying

Satoshi Tominaka, T. Osaka
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引用次数: 16

Abstract

PdCo alloy is a promising catalyst for oxygen reduction reaction of direct methanol fuel cells because of its high activity and the tolerance to methanol. We have applied this catalyst in order to realize on-chip fuel cell which is a membraneless design. The novel design made the fuel cells to be flexible and integratable with other microdevices. Here, we summarize our recent research on the synthesis of nanostructured PdCo catalyst by electrochemical methods, which enable us to deposit the alloy onto microelectrodes of the on-chip fuel cells. First, the electrodeposition of PdCo is discussed in detail, and then, dealloying for introducing nanopores into the electrodeposits is described. Finally, electrochemical response and activities are fully discussed.
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微燃料电池用纳米多孔PdCo催化剂:电沉积和合金化
PdCo合金具有高活性和耐甲醇性能,是直接甲醇燃料电池氧还原反应的一种很有前途的催化剂。为了实现片上燃料电池的无膜设计,我们应用了这种催化剂。这种新颖的设计使燃料电池具有灵活性,并可与其他微型设备集成。本文总结了近年来利用电化学方法合成纳米结构PdCo催化剂的研究进展,该方法使我们能够将合金沉积在片上燃料电池的微电极上。首先,详细讨论了PdCo的电沉积,然后描述了在电沉积中引入纳米孔的脱合金。最后,充分讨论了电化学响应和活性。
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