Electrochemical performance of crystalline Ni–Co–Mo–Fe electrodes obtained by mechanical alloying on the oxygen evolution reaction

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• 作者：M. Plata-Torres ; A.M. Torres-Huerta ; M.A. Domí ; nguez-Crespo ; E.M. Arce-Estrada ; C. Ramí ; rez-Rodrí ; guez
• 关键词：Mechanical alloying ; Electrocatalysts ; Oxygen evolution reaction
• 刊名：International Journal of Hydrogen Energy
• 出版年：2007
• 出版时间：December 2007
• 年：2007
• 卷：32
• 期：17
• 页码：4142-4152
• 全文大小：977 K

文摘

Electro-active Co₃₀Ni₇₀, Co₃₀Mo₇₀, edaa4ab9f31ccb5f3fa3c8841b57"" title=""Click to view the MathML source"">Ni₃₀Mo₇₀, Co₁₀Ni₂₀Mo₇₀, Fe₁₀Co₃₀Ni₆₀ and Co₁₀Fe₃₀Ni₆₀ wt % alloys have been prepared by mechanical alloying. The electrocatalytic behavior of obtained electrodes has been evaluated in 30 wt % KOH aqueous solutions as a function of different temperatures (298, 323 and 343 K) and overvoltages (η=200, 300, 400 mV). The effect of Fe contamination during mechanical milling was also analyzed. The electrode performance was studied by cyclic voltammetry, ac–impedance and steady-state polarization techniques. Appreciable current values for oxygen evolution reactions (OER) were measured at Ni–Co–Mo–Fe electrodes produced by this technique. It was also found that the electrochemically formed Co and Fe oxides and/or hydroxides did not show an activity for OER as good as reported on hydrogen evolution reaction (HER). Tafel plots of preoxidized at 1 cycle and prolonged cycled (50 cycles) for Co₃₀Ni₇₀, Co₃₀Mo₇₀, Ni₃₀Mo₇₀, Co₁₀Ni₂₀Mo₇₀, Fe₁₀Co₃₀Ni₆₀ and aa18b23bd36ebf535f0935e"" title=""Click to view the MathML source"">Co₁₀Fe₃₀Ni₆₀ crystalline electrodes were very different, which might be related to changes in the surface enrichment of one or two of the alloy constituents. The Mo electrocatalytic effects seem to be more important on the OER at higher temperatures than those showed previously for HER. Molybdenum containing crystalline Co and Ni powders (Co₁₀Ni₂₀Mo₇₀) showed the best catalytic behavior for the OER.