Jacob Comeaux, William Wirth, J. Courville, Lingyiqian Luo, Hui Yan, Seonhee Jang
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引用次数: 0
摘要
采用四(三甲基硅氧基)硅烷(TTMSS)前驱体等离子体增强化学气相沉积技术,在n型硅(Si)(100)和氧化铟锡包覆的聚萘二甲酸乙二醇酯(ITO/PEN)衬底上沉积了碳掺杂氧化硅(CDO)薄膜作为低介电常数材料。利用FTIR(傅里叶变换红外光谱)和XPS (x射线光电子能谱)分析了CDO膜的化学结构。与碳氢化合物和Si-O相关的化学键是CDO膜的主要特征。FTIR光谱的突出峰包括Si - o - Si拉伸、Si - CH3弯曲、Si - (CH3)x拉伸和CHx拉伸模式。利用O1s、C1s和Si2p电子轨道组成的XPS谱定量分析了CDO膜的元素组成。CDO薄膜的生长机制与衬底类型有关。对于ITO/PEN衬底,由于ITO表面缺乏Si原子,使得初始Si - o键难以形成,导致Si - o - Si结构不足。相比之下,由于表面存在Si - o键,CDO薄膜可以很容易地在Si衬底上生长。预计CDO薄膜的化学结构会影响其电气和机械性能。
Chemical Structure Analysis of Carbon-Doped Silicon Oxide Thin Films by Plasma-Enhanced Chemical Vapor Deposition of Tetrakis(Trimethylsilyloxy)Silane Precursor
Carbon-doped silicon oxide (CDO) thin films as low dielectric constant materials were deposited on both n-type silicon (Si) (100) and indium tin oxide coated polyethylene naphthalate (ITO/PEN) substrates, using the plasma-enhanced chemical vapor deposition of tetrakis(trimethylsilyoxy)silane (TTMSS) precursor. Chemical structures of the CDO films were analyzed by using FTIR (Fourier transformation infrared) spectroscopy and XPS (X-ray photoelectron spectroscopy). The chemical bonds related with hydrocarbon and Si–O were the main characteristics of the CDO films. The prominent peaks from the FTIR spectra included Si–O–Si stretching, Si–CH3 bending, Si–(CH3)x stretching, and CHx stretching modes. XPS spectra composed of the O1s, C1s, and Si2p electron orbitals were used to quantitatively analyze the elemental composition of the CDO films. The growth mechanisms of CDO films were dependent on the substrate type. For the ITO/PEN substrate, the lack of Si atoms on the ITO surface made difficulty in forming initial Si–O bonds, resulting in insufficient Si–O–Si structure. In comparison, the CDO films could grow easily on Si substrates due to pre-existing Si–O bonds on the surface. The chemical structures of the CDO films are expected to affect electrical and mechanical performances.