Direct imaging of intrinsic molecular orbitals using two-dimensional, epitaxially-grown, nanostructured graphene for study of single molecule and interactions

H. T. Zhou; J. H. Mao; G. Li; Y. L. Wang; X. L Feng; S. X. Du; K. Mullen; H.-J. Gao

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Direct imaging of intrinsic molecular orbitals using two-dimensional, epitaxially-grown, nanostructured graphene for study of single molecule and interactions

机译：使用二维外延生长的纳米结构石墨烯直接成像本征分子轨道，用于研究单分子和相互作用

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Using epitaxially grown graphene on Ru(0001) as a buffer layer, the intrinsic molecular orbitals of perylene-3,4,9,10-tetracarboxylic dianhydride, pentacene, and C_(60) molecules were imaged by means of scanning tunneling microscope (STM). Combined with density functional theory calculations, our high resolution STM images of the molecules reveal that the graphene layer decouples the individual molecules electronically from the metallic substrate. Our results show that graphene-based moire pattern can be used as a unique way to probe the intrinsic electronic structures of molecular adsorbates and their interactions.

机译：使用外延生长的石墨烯在Ru（0001）上作为缓冲层，通过扫描隧道显微镜（STM）对per 3,4,9,10-四羧酸二酐，并五苯和C_（60）分子的本征分子轨道成像）。结合密度泛函理论计算，我们的分子高分辨率STM图像显示，石墨烯层将单个分子从金属基材上电子分离。我们的结果表明，基于石墨烯的莫尔条纹可以用作探测分子被吸附物的固有电子结构及其相互作用的独特方法。

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《Applied Physics Letters》 |2011年第15期|p.153101.1-153101.3|共3页
作者
H. T. Zhou; J. H. Mao; G. Li; Y. L. Wang; X. L Feng; S. X. Du; K. Mullen; H.-J. Gao;
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Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China;

Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China;

Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China;

Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China;

Max Planck Institute for Polymer Research, Ackermannweg 10, D-55128 Mainz, Germany;

Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China;

Max Planck Institute for Polymer Research, Ackermannweg 10, D-55128 Mainz, Germany;

Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China;

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Direct imaging of intrinsic molecular orbitals using two-dimensional, epitaxially-grown, nanostructured graphene for study of single molecule and interactions

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