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首页> 外文期刊>Surface Science >Adsorption of k on Au(110) and Ag(110) surfaces: A scanning tunneling microscopy and density functional theory study
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Adsorption of k on Au(110) and Ag(110) surfaces: A scanning tunneling microscopy and density functional theory study

机译:Au(110)和Ag(110)表面的吸附k:扫描隧道显微镜和密度泛函理论研究

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摘要

Adsorption of alkali metals on surfaces is of importance in nanoscience, electrochemistry and heterogeneous catalysis. Here we use scanning tunneling microscopy (STM) and density functional theory (DFT) to study the behaviors of K adsorption on Au(110) and Ag(110) at low coverage. K atoms adsorbed in the reconstructed grooves are visible in our high-resolution STM images. Owing to the charge transfer between K and Au(110) surface, the positively charged K atoms exhibit low density of states near the Fermi level, resulting in a depression morphology in STM images. Furthermore, most of the K atoms adsorbed in the reconstructed grooves have a K-K distance 3 or 3.5 times of the surface periodicity in the [1 - 10] direction. Density functional theory calculations reveal almost equivalent adsorption energies at the hollow and bridge sites, implying a negligible diffusion barrier along the reconstructed grooves. A positive charge about 0.80-0.86 e is calculated for K adsorbed on all Au(110)-(1 x 2), Au(110)-(1 x 3) and Ag(110)-(1 x 2) surfaces.
机译:在表面上的碱金属的吸附在纳米科学,电化学和异质催化方面具有重要性。在这里,我们使用扫描隧道显微镜(STM)和密度泛函理论(DFT)来研究低覆盖率在AU(110)和AG(110)上的K吸附的行为。在高分辨率STM图像中可见吸附在重建槽中的k原子。由于K和Au(110)表面之间的电荷转移,带正电荷的K原子表现出在费米水平附近的低密度,导致STM图像中的凹陷形态。此外,在重建槽中吸附的大部分K原子具有[1-10]方向的表面周期性的k-k距离3或3.5倍。密度泛函理论计算在空心和桥接场地上显示了几乎等效的吸附能量,暗示沿重建凹槽的可忽略的扩散屏障。在所有Au(110) - (1×2),Au(110) - (1×3)和Ag(110) - (1×2)表面上,计算约0.80-0.86e的正电荷。

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  • 来源
    《Surface Science》 |2019年第6期|18-23|共6页
  • 作者

    Pang Rongsheng; Qin Helin; Cai Zeying; Liu Meizhuang; Chen Shenwei; Zhong Jiuping; Zhong Dingyong;

  • 作者单位

    Sun Yat Sen Univ Sch Phys Xingang Xi Rd 135 Guangzhou 510275 Guangdong Peoples R China|Sun Yat Sen Univ State Key Lab Optoelect Mat & Technol Xingang Xi Rd 135 Guangzhou 510275 Guangdong Peoples R China;

    Sun Yat Sen Univ Sch Phys Xingang Xi Rd 135 Guangzhou 510275 Guangdong Peoples R China|Sun Yat Sen Univ State Key Lab Optoelect Mat & Technol Xingang Xi Rd 135 Guangzhou 510275 Guangdong Peoples R China;

    Sun Yat Sen Univ Sch Phys Xingang Xi Rd 135 Guangzhou 510275 Guangdong Peoples R China|Sun Yat Sen Univ State Key Lab Optoelect Mat & Technol Xingang Xi Rd 135 Guangzhou 510275 Guangdong Peoples R China;

    Sun Yat Sen Univ Sch Phys Xingang Xi Rd 135 Guangzhou 510275 Guangdong Peoples R China|Sun Yat Sen Univ State Key Lab Optoelect Mat & Technol Xingang Xi Rd 135 Guangzhou 510275 Guangdong Peoples R China;

    Sun Yat Sen Univ Sch Phys Xingang Xi Rd 135 Guangzhou 510275 Guangdong Peoples R China|Sun Yat Sen Univ State Key Lab Optoelect Mat & Technol Xingang Xi Rd 135 Guangzhou 510275 Guangdong Peoples R China;

    Sun Yat Sen Univ Sch Mat Xingang Xi Rd 135 Guangzhou 510275 Guangdong Peoples R China;

    Sun Yat Sen Univ Sch Phys Xingang Xi Rd 135 Guangzhou 510275 Guangdong Peoples R China|Sun Yat Sen Univ State Key Lab Optoelect Mat & Technol Xingang Xi Rd 135 Guangzhou 510275 Guangdong Peoples R China;

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  • 正文语种 eng
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  • 关键词

    Alkali atoms; Au(110); Charge transfer; Scanning tunneling microscopy; Density functional theory;

    机译:碱原子;Au(110);电荷转移;扫描隧道显微镜;密度函数理论;

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