Copper electrodeposition onto extended surface area electrodes and the treatment of copper-containing waste streams

Scandinavian Journal of Metallurgy Pub Date : 2005-12-01 DOI:10.1111/J.1600-0692.2005.00756.X

J. Evans, Ran Ding, F. Doyle, V. Jiřičný

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引用次数: 16

Abstract

The paper reviews work on. copper deposition onto porous, fluidized and spouted bed electrodes and discusses the phenomena that are important in governing electrode behavior. An ongoing investigation into the use of ion exchange and electrodeposition to recover copper and water from semiconductor industry waste streams is described. These waste streams, and the associated fresh water consumption, appear to be a growing problem as the semiconductor industry moves to copper metallization (by electrolytic and electroless deposition). Copper metallization also implies the generation of significant waste streams from copper removal by chemical-mechanical planarization (CMP). The quantity of copper to be recovered is still small but its removal from the waste stream will facilitate disposal and, perhaps, reuse of the large volume of water entailed. Extended surface area electrodes may play a role in this task and results using porous carbon electrodes are presented. Recent results on the growth of copper particles in spouted electrodes and the deposition of copper from electrolytes containing other metal salts are presented.

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扩展表面积电极上的铜电沉积及含铜废物流的处理

这篇论文回顾了工作。铜沉积在多孔、流态化和喷淋床电极上，并讨论了控制电极行为的重要现象。一项正在进行的调查使用离子交换和电沉积从半导体工业废物流中回收铜和水。随着半导体工业转向铜金属化(通过电解和化学沉积)，这些废物流以及相关的淡水消耗似乎成为一个日益严重的问题。铜金属化还意味着化学-机械刨平(CMP)除铜过程中产生的大量废物流。需要回收的铜的数量仍然很少，但从废物流中去除铜将有助于处理，也许还可以重新利用所需的大量水。扩展表面积电极可能在这一任务中发挥作用，并提出了使用多孔碳电极的结果。本文介绍了在喷淋电极中铜颗粒的生长和含有其他金属盐的电解质中铜的沉积的最新研究结果。

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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Scandinavian Journal of Metallurgy

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