晶向对IC封装用铜氧化失效的影响

Jie Gao, A. Hu, Ming Li, D. Mao
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引用次数: 0

摘要

研究了晶体取向对纯铜氧化失效的影响。XRD结果表明,在铜表面生长的氧化膜主要由Cu2O组成。Cu(110)与氧化膜的结合强度最高,Cu(311)与氧化膜的结合强度最低。SEM观察发现,Cu(311)上生长的氧化膜从衬底上分层,而Cu(100)和Cu(110)上生长的氧化膜则没有这种现象。采用阴极还原法测定氧化膜厚度,考察氧化速率。Cu(100)和Cu(110)表面的氧化膜厚度比Cu(311)和Cu(111)表面的氧化膜薄。计算出Cu(100)上的膜生长活化能最高,Cu(311)上的膜生长活化能最低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of crystal orientation on the oxidation failure of copper for IC package
The effect of crystal orientation on the oxidation failure of pure copper was investigated. XRD results indicated that the oxide film grown on copper surface was mainly composed of Cu2O. The adhesion strength between Cu(110) and its oxidization film was the highest, whereas, the adhesion strength between Cu (311) and its oxidization film was the lowest. SEM observations revealed that the oxide film grown on Cu (311) delaminated from substrate, while the oxide film grown on Cu (100) and Cu (110) did not reveal such a phenomenon. The oxidation rate was investigated by measuring oxide film thickness using the cathodic reduction method. The thickness of oxide film grown on Cu (100) and Cu (110) was thinner than those on Cu (311) and Cu (111). The activation energy for film growth on Cu (100) was calculated to be the highest while that on Cu (311) was the lowest.
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