X-Ray Photoelectron Spectroscopy and Raman Spectroscopy Studies on Thin Carbon Nitride Films Deposited by Reactive RF Magnetron Sputtering

纳米科学与工程(英文) Pub Date : 2012-06-22 DOI:10.4236/WJNSE.2012.22012

M. Matsuoka, S. Isotani, R. Mansano, W. Sucasaire, R. Pinto, J. Mittani, K. Ogata, N. Kuratani

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引用次数: 39

Abstract

Thin carbon nitride (CNx) films were synthesized on silicon substrates by reactive RF magnetron sputtering of a graphite target in mixed N2/Ar discharges and the N2 gas fraction in the discharge gas, F N, varied from 0.5 to 1.0. The atomic bonding configuration and chemical composition in the CNx films were examined using X-ray photoelectron spectroscopy (XPS) and the degree of structural disorder was studied using Raman spectroscopy. An increase in the nitrogen content in the film from 19 to 26 at% was observed at FN = 0.8 and found to influence the film properties; normality tests suggested that the data obtained at FN = 0.8 are not experimental errors. The interpretation of XPS spectra might not be always straightforward and hence the detailed and quantitative comparison of the XPS data with the information acquired by Raman spectroscopy enabled us to interpret the decomposed peaks in the N 1s and C 1s XPS spectra. Two N 1s XPS peaks at 398.3 and 399.8 eV (peaks N1 and N2, respectively) were assigned to a sum of pyridine-like nitrogen and -C≡N bond, and to a sum of pyrrole-like nitrogen and threefold nitrogen, respectively. Further, the peaks N1 and N2 were found to correlate with C 1s XPS peaks at 288.2 and 286.3 eV, respectively; the peak at 288.2 eV might include a contribution of sp3 carbon.

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反应性射频磁控溅射沉积氮化碳薄膜的x射线光电子能谱和拉曼光谱研究

在氮气/氩气混合放电条件下，用反应射频磁控溅射技术在硅衬底上制备了氮化碳(CNx)薄膜，放电气体中N2气体分数fn在0.5 ~ 1.0之间变化。利用x射线光电子能谱(XPS)检测了CNx薄膜中的原子成键构型和化学成分，并利用拉曼光谱研究了结构的无序程度。在FN = 0.8时，膜中的氮含量从19%增加到26%，并影响膜的性能;正态性检验表明，在FN = 0.8时得到的数据不是实验误差。XPS光谱的解释可能并不总是直截了当的，因此，将XPS数据与拉曼光谱获得的信息进行详细和定量的比较，使我们能够解释n1s和c1s XPS光谱中的分解峰。在398.3和399.8 eV处的两个n1s XPS峰(分别为N1和N2峰)分别属于类吡啶氮和-C≡N键的和，以及类吡咯氮和三重氮的和。此外，在288.2和286.3 eV处发现了N1和N2峰与c1s XPS峰相关;288.2 eV的峰可能包含sp3碳的贡献。

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纳米科学与工程(英文)

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