X-ray photoelectron spectroscopy and infrared adsorption spectroscopy - correlations

Applications of Surface Science Pub Date : 1985-05-01 DOI:10.1016/0378-5963(85)90063-7

J. Liesegang, A.R. Lee, J.O. Hill, S.P. Roe

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引用次数: 1

Abstract

Since the early seventies, a correlation has been known to exist between changes in intramolecular bond vibrational frequencies (as measured by IAS) and core level binding energy shifts (as measured by XPS). It is possible to explain such correlations by relating both shifts to the partial atomic charges which exist on the bonding pair of atoms. For a series of related molecules, for example, the charge on a common atom may vary and may be related to the core level shifts on that atom. Equally, Liesegang and Lee have shown that changes in this charge correspond with variations to the bond stretching frequency. This model has also been recently extended to include correlations between XPS shifts and rocking vibrational mode variations. In both applications, however, the elastic properties of bonds (springs) are considered. In the former, spring stretching properties are linked to the partial charges, while in the latter case molecular flexing involving a cantilever-like vibration permits a link with partial charges and their effect on rocking frequency. Experimental data will be presented for comparative purposes to illustrate the predictions of the model.

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x射线光电子能谱与红外吸附能谱的相关性

自七十年代初以来，已知分子内键振动频率的变化(由IAS测量)与核心能级结合能位移(由XPS测量)之间存在相关性。通过将这两种位移与存在于成键原子对上的部分原子电荷联系起来，可以解释这种相关性。例如，对于一系列相关的分子，一个普通原子上的电荷可能会变化，并且可能与该原子上的核心能级位移有关。同样，Liesegang和Lee也证明了电荷的变化与键拉伸频率的变化相对应。该模型最近也被扩展到包括XPS位移和摇摆振动模式变化之间的相关性。然而，在这两种应用中，都考虑了键(弹簧)的弹性特性。在前者中，弹簧拉伸特性与部分电荷有关，而在后一种情况下，涉及悬臂式振动的分子挠曲允许与部分电荷及其对摇摆频率的影响有关。实验数据将提供比较的目的，以说明模型的预测。

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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