A theoretical study of CO adsorption on gold by Hückel theory and density functional theory calculations

Sun K.; Kohyama M.; Tanaka S.; Takeda S.

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A theoretical study of CO adsorption on gold by Hückel theory and density functional theory calculations

机译：用Hückel理论和密度泛函理论计算理论研究CO在金上的吸附

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It is crucial to understand the nature of CO adsorption on gold so as to elucidate the mechanism of low-temperature CO oxidation on nanogold catalysts. We performed theoretical analysis of CO adsorption on gold by using Hückel theory and density functional theory (DFT) calculations. Hückel theory indicates that CO adsorption on gold is dominated by the electron distribution at the Au atom, which is greatly affected by neighboring Au atoms, coadsorbed or doping species. The increase of σ-bonding electrons should weaken the CO adsorption, while the increase of π-electrons should strengthen the adsorption. DFT calculations proved this prediction quantitatively for various systems, including CO adsorption on a Au(100)-hex surface with locally varying subsurface configurations and CO coadsorption with acceptor or donor species.

机译：了解CO在金上的吸附性质以阐明纳米金催化剂上低温CO氧化的机理至关重要。我们使用Hückel理论和密度泛函理论（DFT）计算对CO在金上的吸附进行了理论分析。 Hückel理论表明，CO在金上的吸附主要受Au原子上电子分布的影响，而电子分布受相邻Au原子，共吸附或掺杂物种的影响很大。 σ键电子的增加会削弱CO的吸附，而π电子的增加应加强对CO的吸附。 DFT计算证明了该预测对于各种系统的定量预测，包括在具有局部变化的亚表面构型的Au（100）-hex表面上的CO吸附以及与受体或供体物种的CO共吸附。

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《Journal of Computational Chemistry: Organic, Inorganic, Physical, Biological》 |2011年第15期|共7页
作者
Sun K.; Kohyama M.; Tanaka S.; Takeda S.;
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正文语种 eng
中图分类化学;
关键词
CO adsorption; DFT calculations; gold; Hückel theory;

机译：CO吸附DFT计算黄金休克尔理论;

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A theoretical study of CO adsorption on gold by Hückel theory and density functional theory calculations

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