General Method for Predicting Interface Bonding at Various Oxide–Metal Interfaces

Surfaces Pub Date : 2024-06-03 DOI:10.3390/surfaces7020026

Michiko Yoshitake

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Abstract

Interface termination bonding between metal oxide and metals is discussed from the viewpoint of thermodynamics. The method of interface termination prediction proposed by the authors for Al2O3–metal and ZnO–metal interfaces is extended to a general interface between metal-oxide and metals. The extension of the prediction method to the interface between metal oxides and elemental semiconductors is also discussed. Information on interface bonding was extracted by carefully examining the experimental results and first-principles calculations in the references. The extracted information on interface bonding from references is compared with the results obtained via the proposed prediction method. It is demonstrated that interface termination bonding can be predicted by extending the method to oxide–metal interfaces in general, when there is no interface reaction such as the reduction of oxide, oxidation of metal, or mixed oxide formation. The method uses only basic quantities of pure elements and the formation enthalpy of oxides. Therefore, it can be applied to most of the metals (including elemental semiconductors) in the periodic table and metal oxides with one stable valence. The method is implemented as a software, “InterChemBond”, and can be used free of charge.

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预测各种氧化物-金属界面键合的一般方法

从热力学的角度讨论了金属氧化物与金属之间的界面终止键合。作者针对 Al2O3-金属和 ZnO-金属界面提出的界面终止预测方法被扩展到金属氧化物和金属之间的一般界面。此外，还讨论了将预测方法扩展到金属氧化物与元素半导体之间界面的问题。通过仔细研究参考文献中的实验结果和第一原理计算，提取了有关界面成键的信息。将从参考文献中提取的界面成键信息与通过拟议的预测方法获得的结果进行了比较。结果表明，当不存在氧化物还原、金属氧化或混合氧化物形成等界面反应时，通过将该方法扩展到一般的氧化物-金属界面，可以预测界面终止键合。该方法仅使用纯元素的基本量和氧化物的形成焓。因此，它适用于元素周期表中的大多数金属（包括元素半导体）和具有一种稳定价态的金属氧化物。该方法通过软件 "InterChemBond "实现，可免费使用。

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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Surfaces

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