Huan Tran Ngoc, Simon Philippe, Benayad Anass, Guetaz Laure, Artero Vincent, Fontecave Marc
Université Grenoble Alpes, Grenoble, 38000, France.
Laboratory of Chemistry and Biology of Metals, CNRS UMR 5249, 17 rue des Martyrs, 38054, Grenoble cedex, France.
Chemistry. 2016 Sep 19;22(39):14029-14035. doi: 10.1002/chem.201602618. Epub 2016 Aug 12.
Copper/copper oxide (Cu/Cu O) electrodes are known to display interesting electrocatalytic performances for the reduction of CO , and thus, deserve further investigation for optimization. Here, we show that the addition of nitrogen-based organic additives greatly improves the activity of these electrodes (higher current densities, greater selectivity, and higher faradaic yields). The best effector is found to be tetramethyl cyclam. For example, electrolysis at -2.0 V versus Fc /Fc in CO -saturated DMF/H O (99:1, v/v) in the presence of this effector results in formic acid with almost 90 % faradaic yield. SEM and XPS analysis of the electrode surface reveals that the organic additive promotes the formation of active Cu nanoparticles from Cu O during electrolysis. This simple approach provides a straightforward strategy toward the optimization of Cu/Cu O electrodes.
铜/氧化铜(Cu/CuO)电极在CO还原反应中展现出有趣的电催化性能,因此值得进一步研究以进行优化。在此,我们表明添加氮基有机添加剂可显著提高这些电极的活性(更高的电流密度、更高的选择性和更高的法拉第产率)。发现最佳的添加剂是四甲基环胺。例如,在该添加剂存在下,于CO饱和的DMF/H₂O(99:1,v/v)中相对于Fc⁺/Fc在-2.0 V下进行电解,可得到法拉第产率近90%的甲酸。电极表面的SEM和XPS分析表明,有机添加剂在电解过程中促进了由CuO形成活性铜纳米颗粒。这种简单的方法为优化Cu/CuO电极提供了一种直接的策略。
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