Electrochemical restructuring of copper surfaces using organic additives and its effect on the electrocatalytic reduction of nitrate ions

Science & Engineering Faculty Pub Date : 2015-08-25 DOI:10.1071/CH15191

A. Balkis, A. O’Mullane

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引用次数: 8

Abstract

This work describes the fabrication of nanostructured copper electrodes using a simple potential cycling protocol that involves oxidation and reduction of the surface in an alkaline solution. It was found that the inclusion of additives, such as benzyl alcohol and phenylacetic acid, has a profound effect on the surface oxidation process and the subsequent reduction of these oxides. This results in not only a morphology change, but also affects the electrocatalytic performance of the electrode for the reduction of nitrate ions. In all cases, the electrocatalytic performance of the restructured electrodes was significantly enhanced compared with the unmodified electrode. The most promising material was formed when phenylacetic acid was used as the additive. In addition, the reduction of residual oxides on the surface after the modification procedure to expose freshly active reaction sites on the surface before nitrate reduction was found to be a significant factor in dictating the overall electrocatalytic activity. It is envisaged that this approach offers an interesting way to fabricate other nanostructured electrode surfaces.

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有机添加剂对铜表面的电化学重构及其对硝酸离子电催化还原的影响

这项工作描述了纳米结构铜电极的制造，使用简单的电位循环方案，包括在碱性溶液中氧化和还原表面。研究发现，添加剂如苯甲醇和苯乙酸的加入对表面氧化过程和随后这些氧化物的还原有深远的影响。这不仅会导致形貌的改变，还会影响电极还原硝酸盐离子的电催化性能。在所有情况下，与未修饰的电极相比，重组电极的电催化性能显著增强。以苯乙酸为添加剂形成了最有前途的材料。此外，在硝酸盐还原之前，修饰过程后表面上残留的氧化物的减少暴露了表面上新的活性反应位点，这是决定总体电催化活性的一个重要因素。设想这种方法为制造其他纳米结构电极表面提供了一种有趣的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Science & Engineering Faculty

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