検索対象:     
報告書番号:
※ 半角英数字
 年 ~ 
 年
検索結果: 1 件中 1件目~1件目を表示
  • 1

発表形式

Initialising ...

選択項目を絞り込む

掲載資料名

Initialising ...

発表会議名

Initialising ...

筆頭著者名

Initialising ...

キーワード

Initialising ...

使用言語

Initialising ...

発行年

Initialising ...

開催年

Initialising ...

選択した検索結果をダウンロード

論文

Electrooxidation of hydrazine hydrate using Ni-La catalyst for anion exchange membrane fuel cells

坂本 友和*; 朝澤 浩一郎*; Martinez, U.*; Halevi, B.*; 鈴木 敏行*; 荒井 重勇*; 松村 大樹; 西畑 保雄; Atanassov, P.*; 田中 裕久*

Journal of Power Sources, 234, p.252 - 259, 2013/07

 被引用回数:65 パーセンタイル:86.88(Chemistry, Physical)

Carbon supported Ni, La, and Ni$$_{1-x}$$La$$_{x}$$ (0.1$$leq$$$$x$$$$leq$$0.9) catalysts were synthesized by an impregnation/freeze-drying procedure. The catalytic activity for electro-oxidation of hydrazine hydrate was evaluated using a 16-channel electrochemical electrode array. The Ni$$_{0.9}$$La$$_{0.1}$$/C catalyst oxidized hydrazine hydrate at a lower potential and exhibited higher mass activity in comparison with a similarly made Ni/C catalyst. Chemical insight suggests that the cause of improved performance for the Ni$$_{0.9}$$La$$_{0.1}$$/C catalyst is likely multifunctional synergism of the components. However, X-ray absorption fine structure (XAFS) and high voltage electron microscopy (HVEM) unexpectedly show some hcp LaNi$$_{5}$$ shells coating the fcc Ni catalyst particles. As a result of the screening tests, an unsupported Ni$$_{0.9}$$La$$_{0.1}$$ catalyst was synthesized by spray pyrolysis and tested in a direct hydrazine hydrate fuel cell MEA (DHFC) producing 453 mW cm$$^{2}$$.

1 件中 1件目~1件目を表示
  • 1