Stress and Microstructure in Electrodeposited Copper Nanofilms and the Effect of Chloride and Polyethylene Glycol (PEG)

机译：电沉积铜纳米膜的应力和微观结构以及氯化物和聚乙二醇（PEG）的影响

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Both atomic force microscopy (AFM) imaging and stress measurements were carried out in situ during potentiostatic electrodeposition of copper on gold in 0.05 mol dm~(-3) CuSO_4 in 0.1 tnol dm~(-3) H_2SO_4 with and without chloride ion (Cl~-) and polyethylene glycol (PEG) additives. Our in-situ stress measurement technique allowed us to develop an accurate and reliable method of determining local stress in newly deposited copper films. Stress increases in the tensile direction with thickness and eventually reaches a plateau value. We attribute the initial increase in tension to the coalescence of previously isolated islands and the associated formation of grain boundaries. Stress was observed to be higher at higher overpotentials. The addition of 3 ppm Cl~- reduced stress significantly but had very little effect on deposition rate. The addition of 5 ppm PEG with the Cl~-enhanced stress reduction.

机译：原子力显微镜（AFM）成像和应力测量都是在恒电位电沉积铜在金中以0.05 mol dm〜（-3）CuSO_4在0.1 tnol dm〜（-3）H_2SO_4中有和没有氯离子的情况下进行的。〜-）和聚乙二醇（PEG）添加剂。我们的现场应力测量技术使我们能够开发出一种准确可靠的方法来确定新沉积的铜膜中的局部应力。应力在拉伸方向上随厚度的增加而增加，最终达到稳定值。我们将张力的最初增加归因于先前孤立的岛的合并以及相关的晶界形成。在较高的超电势下观察到压力较高。 3 ppm Cl〜-的添加显着降低了应力，但对沉积速率的影响很小。添加5 ppm的PEG可使Cl〜增强，应力降低。

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《Stress-related phenomena in electrochemical systems 2》|2012年|1-13|共13页
会议地点 Seattle WA(US)
作者
M. OGrady; C. Lenihan; D. N. Buckley;
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Department of Physics Energy, Materials and Surface Science Institute University of Limerick, Ireland;

Department of Physics Energy, Materials and Surface Science Institute University of Limerick, Ireland;

Department of Physics Energy, Materials and Surface Science Institute University of Limerick, Ireland;

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