碳含量对低k介电材料中锰硅酸盐势垒形成影响的光发射研究

J. Bogan, A. McCoy, P. Casey, R. O'Connor, C. Byrne, G. Hughes
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引用次数: 0

摘要

在x射线光电子能谱(XPS)研究中,将超薄Si和MnO薄膜沉积在不同碳含量的低介电常数碳掺杂氧化物(CDO)上,以准确确定Si 2p和o1s核心能级峰的结合能(BE)位置与碳浓度的关系。结果表明,si2p和o1s核能级峰的碳含量与BE位置之间存在可测量的相关性。此外,研究表明,各种CDO衬底峰的半最大值全宽度(FWHM)明显大于SiO2,这使得难以明确确定这些衬底上硅酸锰阻挡层的形成。在另一组实验中,通过对O1s和Mn2p核心能级光谱的分析推断,在这些CDO衬底上沉积和高温退火薄MnO层后,形成了硅酸锰阻挡层。
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Photoemission study of the impact of carbon content on Mn silicate barrier formation on low-k dielectric materials
In this x-ray photoelectron spectroscopy (XPS) study ultra-thin Si and MnO films were deposited on a range of low dielectric constant carbon doped oxides (CDO) with varying carbon content, in order to accurately determine the binding energy (BE) positions of the Si 2p and O 1s core level peaks as a function of carbon concentration. The results show a measurable correlation between carbon content and BE position of both the Si 2p and O 1s core level peaks. Furthermore, it has been shown that the full width at half maximum (FWHM) of the various CDO substrate peaks are significantly larger than for SiO2 making it difficult to unambiguously determine manganese silicate barrier layer formation on these substrates. In a separate set of experiments, the formation of a manganese silicate barrier layer on these CDO substrates following the deposition and high temperature annealing of thin MnO layers is inferred from analysis of the O1s and Mn2p core level spectra.
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