钴
联氨(抗抑郁剂)
阳极
镍
无机化学
催化作用
铂金
化学
直接乙醇燃料电池
材料科学
质子交换膜燃料电池
电极
有机化学
色谱法
物理化学
作者
Koichiro Asazawa,T. Sakamoto,Susumu Yamaguchi,Kôji Yamada,Hirotoshi Fujikawa,Hirohisa Tanaka,Keisuke Oguro
摘要
A platinum-free fuel cell using liquid hydrazine hydrate as the fuel and comprised of a cobalt or nickel anode and a cobalt cathode exhibits high performance. In this study, the fuel cell performances using nickel, cobalt, and platinum as anode catalysts are evaluated and compared. It is found that fuel cell performance in the case of nickel and cobalt is higher than that in the case of platinum. Further, anodic reactions are discussed by comparing the hydrazine consumption and ammonia generation when cobalt and nickel are used as anode catalyst. Cobalt exhibits a higher rate of decomposition than nickel. Nickel is found to be the most suitable anode catalyst among the above mentioned anode catalysts for this fuel cell. The influence of hydrazine hydrate and KOH concentrations in the fuel on cell performance is also discussed. Cell performance is the highest at a hydrazine hydrate concentration of and a KOH concentration of . The maximum power density of the alkaline anion-exchange membrane fuel cell, comprised of a nickel anode and a Co–PPY–C (cobalt polypyrrole carbon) cathode, is .
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