Designing effective plating baths for use in the pulse-reverse plating of copper nanocomposite coatings

H. Hilton-Tapp, J. Kelly, D. Weston
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Abstract

ABSTRACT The development of the process to produce Metal Matrix Nanocomposite (MMNC) coatings can provide opportunity for the enhancement of mechanical and electrical properties. This research uses speciation-simulating software to screen formulations for producing nanocomposites by pulse-reverse plating (PRP). PRP is used as a controlled delivery mechanism to attract a high concentration of nanoparticles to the coating during the anodic pulse which are subsequently captured in the cathodic pulse. A disadvantage is that the anodic pulse generates passivating hydroxide layers leading to poor adhesion. Speciation plots assess the stabilising effect of chosen complexants (gluconate and glycine) within electrolytes with the aim of diminishing hydroxide formation. To confirm bath formulation effectiveness before nanoparticle incorporation, UV-Vis spectroscopy and electrodeposition were used. Gluconate and glycine both theoretically produce highly stable complexes and also produce uniform copper deposits supporting the stabilisation effect observed in theoretical studies. This work therefore supports the use of these complexants for future stages of this research.
设计用于脉冲反镀铜纳米复合镀层的有效镀液
金属基纳米复合材料(MMNC)涂层制备工艺的发展为提高金属基纳米复合材料的力学性能和电学性能提供了契机。本研究使用物种模拟软件筛选脉冲反镀(PRP)制备纳米复合材料的配方。PRP作为一种受控的输送机制,在阳极脉冲期间将高浓度的纳米颗粒吸引到涂层上,这些纳米颗粒随后在阴极脉冲中被捕获。缺点是阳极脉冲产生钝化氢氧化物层,导致附着力差。形态图评估所选络合物(葡萄糖酸盐和甘氨酸)在电解质中的稳定作用,目的是减少氢氧化物的形成。在纳米颗粒掺入前,用紫外可见光谱和电沉积法验证了浴液配方的有效性。葡萄糖酸盐和甘氨酸理论上都能产生高度稳定的配合物,也能产生均匀的铜矿,支持理论研究中观察到的稳定效应。因此,这项工作支持在本研究的未来阶段使用这些络合剂。
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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