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首页> 外文期刊>The European Physical Journal B >Adsorption configurations of carbon monoxide on gold monolayer supported by graphene or monolayer hexagonal boron nitride: a first-principles study
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Adsorption configurations of carbon monoxide on gold monolayer supported by graphene or monolayer hexagonal boron nitride: a first-principles study

机译:一氧化碳在石墨烯或单层六方氮化硼支撑的金单层上的吸附构型:第一性原理研究

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摘要

Using density functional theory with a semiempirical van der Waals approach proposed by Grimme, the adsorption behavior of carbon monoxide on a gold monolayer supported by graphene or monolayer hexagonal boron nitride has been investigated. Based on the changes in the Dirac cone of graphene and a Bader charge analysis, we observe that the Au(111) monolayer gains a small charge from graphene and monolayer h-BN. The adsorbed CO molecule adopts similar adsorption configurations on Au(111)/graphene and Au(111)/h-BN with Au-C distance 2.17−2.50 Å and Au-C-O angle of 123.9°–139.6°. Moreover, we found that for low CO coverages, bonding to the gold surface is surprisingly energy-favorable. Yet the CO adsorption binding energy diminishes at high coverage due to the repulsive van der Waals interactions between CO molecules.
机译:利用Grimme提出的半经验范德华方法的密度泛函理论,研究了一氧化碳在石墨烯或单层六方氮化硼支撑的金单层上的吸附行为。基于石墨烯的狄拉克锥的变化和Bader电荷分析,我们观察到Au(111)单层从石墨烯和单层h-BN获得少量电荷。吸附的CO分子在Au(111)/石墨烯和Au(111)/ h-BN上采用相似的吸附构型,Au-C距离为2.17-2.50Å,Au-C-O角为123.9°-139.6°。此外,我们发现,对于低的CO覆盖率,与金表面的键合出乎意料地具有能源优势。然而,由于CO分子之间的范德华排斥性相互作用,CO吸附结合能在高覆盖率下降低。

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  • 来源
    《The European Physical Journal B》 |2013年第10期|1-7|共7页
  • 作者

    Jiaxin Zheng; Lu Wang; Khabibulakh Katsiev; Yaroslav Losovyj; Elio Vescovo; D. Wayne Goodman; Peter A. Dowben; Jing Lu; Wai-Ning Mei;

  • 作者单位

    Department of Physics University of Nebraska at Omaha">(1);

    State Key Laboratory for Mesoscopic Physics and Department of Physics Peking University">(2);

    Department of Physics University of Nebraska at Omaha">(1);

    Department of Chemistry Texas AM University">(3);

    The J. Bennett Johnston Sr. Center for Advanced Microstructures and Devices Louisiana State University">(4);

    Department of Physics and Astronomy Nebraska Center for Materials and Nanoscience University of Nebraska">(5);

    National Synchrotron Light Source Brookhaven National Laboratory">(6);

    Department of Chemistry Texas AM University">(3);

    Department of Physics and Astronomy Nebraska Center for Materials and Nanoscience University of Nebraska">(5);

    State Key Laboratory for Mesoscopic Physics and Department of Physics Peking University">(2);

    Department of Physics University of Nebraska at Omaha">(1);

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  • 正文语种 eng
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  • 关键词

    Mesoscopic and Nanoscale Systems;

    机译:介观和纳米系统;

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