离子液体
电解质
化学
合金
电极
多孔性
离子键合
水溶液中的金属离子
电化学
化学工程
无机化学
相(物质)
水溶液
金属
离子
催化作用
有机化学
物理化学
工程类
作者
Yu‐Hsuan Pan,Chia‐Ling Yu,Chien‐Liang Lee,Po‐Yu Chen
标识
DOI:10.1002/jccs.202300003
摘要
Abstract Commercial CuNi (55/45 wt%) alloy can be electrochemically dealloyed to be the porous Cu‐rich CuNi electrodes, which reveals an enhanced catalytic activity toward nitrate reduction in contrast with that of the mother alloy electrodes. In comparison with the use of aqueous electrolytes, the formation of the porous structures is reproducible if ionic liquid (IL) is used as the electrolyte for the dealloying process. During the dealloying process, a relatively more quantity of Ni but both Ni and Cu were electrochemically oxidized to be Ni(II) and Cu(II) complex ions; different ions seemed to own different coordinating molecules in accordance with the NMR analysis. Cu(II) ions could be reduced to Cu metal and deposited upon the counter electrode during the dealloying process. Ni(II) ions, on the other hand, can be mostly removed from the IL phase by extraction into the immiscible water phase. A sustainable system may be developed for the preparation of nitrate‐active electrodes in accordance with the study shown here.
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