Surface Analysis Insight Note: Observations relating to photoemission peak shapes, oxidation state, and chemistry of titanium oxide films

IF 1.6 4区 化学 Q4 CHEMISTRY, PHYSICAL Surface and Interface Analysis Pub Date : 2023-12-29 DOI:10.1002/sia.7283
Pascal Bargiela, Vincent Fernandez, William Ravisy, David Morgan, Mireille Richard-Plouet, Neal Fairley, Jonas Baltrusaitis
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Abstract

It is common practice to describe the coordination of metal atoms in a binding configuration with their nearest neighbors in terms of oxidation state, a measure by which the number of electrons redistributed between atoms forming chemical bonds. In XPS terms, change to an oxidation state is commonly inferred by correlating photoemission signal with binding energy. The assumption, when classifying photoemission signals into distinct spectral shapes, is that a distribution of intensities shifted to lower binding energy is evidence of a reduction in oxidation state. In this Insight note, we raise the prospect that changes in photoemission peak shape may occur without obvious changes, determined by XPS in stoichiometry for a material. It is well known that TiO2 measured by XPS yields reproducible Ti 2p photoemission peaks. However, on exposing TiO2 to ion beams, Ti 2p photoemission evolves to complex distributions in intensity, which are particularly difficult to analyze by traditional fitting of bell-shaped curves to these data. For these reasons, in this Insight note, a thin film of TiO2 deposited on a silicon substrate is chosen for analysis by XPS and linear algebraic techniques. Alterations in spectral shapes created from modified TiO2, which might be interpreted as the change in oxidation state, are assessed in terms of relative proportions of titanium to oxygen. It is found through detailed analysis of spectra that quantification by XPS, using procedures routinely used in practice, is not in accord with the typical interpretations of photoemission shapes. The data processing methods used and results presented in this work are of particular relevance to elucidating fundamental phenomena governing the surface evolution of materials-enabled energy processes where cyclic/non-steady usage changes the nature of bonding, especially in the presence of contaminants.
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表面分析洞察说明:与氧化钛薄膜的光发射峰形状、氧化态和化学性质有关的观察结果
通常的做法是用氧化态来描述处于结合构型中的金属原子与其近邻原子的配位情况,氧化态是指形成化学键的原子间重新分配的电子数。在 XPS 术语中,氧化态的变化通常是通过将光辐射信号与结合能相关联来推断的。在将光发射信号划分为不同的光谱形状时,假设强度分布向较低的结合能移动,则证明氧化态降低。在这篇 Insight note 中,我们提出了光发射峰形状可能在没有明显变化的情况下发生变化的前景,这是由 XPS 在材料的化学计量学中确定的。众所周知,用 XPS 测量二氧化钛会产生可重复的 Ti 2p 光发射峰。然而,将二氧化钛暴露在离子束中时,Ti 2p 光发射会演变成复杂的强度分布,特别难以通过传统的钟形曲线拟合来分析这些数据。因此,本 Insight 说明选择了沉积在硅基底上的 TiO2 薄膜,利用 XPS 和线性代数技术进行分析。根据钛和氧的相对比例来评估改性二氧化钛产生的光谱形状变化,这种变化可解释为氧化态的改变。通过对光谱的详细分析发现,使用 XPS 定量与光发射形状的典型解释不一致。这项工作中使用的数据处理方法和展示的结果,对于阐明材料表面演变的基本现象具有特别重要的意义,因为在这些过程中,循环/非稳定使用会改变结合的性质,特别是在存在污染物的情况下。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Surface and Interface Analysis
Surface and Interface Analysis 化学-物理化学
CiteScore
3.30
自引率
5.90%
发文量
130
审稿时长
4.4 months
期刊介绍: Surface and Interface Analysis is devoted to the publication of papers dealing with the development and application of techniques for the characterization of surfaces, interfaces and thin films. Papers dealing with standardization and quantification are particularly welcome, and also those which deal with the application of these techniques to industrial problems. Papers dealing with the purely theoretical aspects of the technique will also be considered. Review articles will be published; prior consultation with one of the Editors is advised in these cases. Papers must clearly be of scientific value in the field and will be submitted to two independent referees. Contributions must be in English and must not have been published elsewhere, and authors must agree not to communicate the same material for publication to any other journal. Authors are invited to submit their papers for publication to John Watts (UK only), Jose Sanz (Rest of Europe), John T. Grant (all non-European countries, except Japan) or R. Shimizu (Japan only).
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