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Atomic surface structure of graphene and its buffer layer on SiC(0001): A chemical-specific photoelectron diffraction approach

机译：石墨烯及其在SiC（0001）上缓冲层的原子表面结构：化学特定的光电子衍射方法

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We report a chemically specific x-ray photoelectron diffraction (XPD) investigation using synchrotron radiation of the thermally induced growth of epitaxial graphene on the 6H-SiC(0001). The XPD results show that the buffer layer on the SiC(0001) surface is formed by two domain regions rotated by 60 degrees with respect to each other. The experimental data supported by a comprehensive multiple scattering calculation approach indicates the existence of a long-range ripple due the (6 root 3 x 6 root 3)R30 degrees. reconstruction, in addition to a local range buckling in the (0001) direction of the two sublattices that form the honeycomb structure of the buffer layer. This displacement supports the existence of an sp(2)-to-sp(3) rehybridization in this layer. For the subsequent graphene layer this displacement is absent, which can explain several differences between the electronic structures of graphene and the buffer layer. DOI: 10.1103/PhysRevB.87.081403

机译：我们通过在6H-SiC（0001）上，使用同步诱导的外延石墨烯的同步辐射进行化学特异性X射线光电子衍射（XPD）研究。 XPD结果表明，SiC（0001）表面上的缓冲层由相对于彼此旋转60度的两个域区域形成。通过全面的多种散射计算方法支持的实验数据表示由于（6根TOOT 3 x 6根3）R30度而存在远程纹波。除了形成缓冲层的蜂窝结构的两个子组的（0001）方向上的局部范围屈曲之外，还重建。该位移支持该层中的SP（2）-TO-SP（3）螯合的存在。对于随后的石墨烯层，不存在这种位移，其可以解释石墨烯和缓冲层的电子结构之间的若干差异。 DOI：10.1103 / physrevb.87.081403

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L. H. de Lima; A. de Siervo; R. Landers; G. A. Viana; A. M. B. Goncalves; R. G. Lacerda; P. Häberle;
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年度 2013
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1. Atomic surface structure of graphene and its buffer layer on SiC(0001): A chemical-specific photoelectron diffraction approach [J] . L. H. de Lima, A. de Siervo, R. Landers, Physical review . 2013,第8期

机译：石墨烯的原子表面结构及其在SiC（0001）上的缓冲层：化学特有的光电子衍射方法
2. Local atomic configuration of graphene, buffer layer, and precursor layer on SiC(0001) by photoelectron diffraction [J] . Hirosuke Matsui, Fumihiko Matsui, Naoyuki Maejima, Surface Science . 2015,第feba期

机译：SiC（0001）上石墨烯，缓冲层和前驱体层的光电子衍射局部原子构型
3. Revealing the atomic structure of the buffer layer between SiC(0001) and epitaxial graphene [J] . Sarah Goler, Camilla Coletti, Vincenzo Piazza Carbon: An International Journal Sponsored by the American Carbon Society . 2013,第Null期

机译：揭示SiC（0001）与外延石墨烯之间缓冲层的原子结构
4. Atomic Structure of Epitaxial Graphene Islands on SiC(0001) Surfaces and their Magnetoelectric Effects [C] . H. Kageshima, H. Hibino, M. Nagase, International Conference on the Physics of Semiconductors . 2011

机译：SiC（0001）表面上外延石墨烯岛的原子结构及其磁电效应
5. Chemistry at oxide surfaces: Reaction of water and HCl on alpha aluminum oxide(0001) and atomic layer deposition of tungsten. [D] . Nelson, Christine Elizabeth. 1999

机译：氧化物表面的化学性质：水和HCl在α氧化铝（0001）上的反应以及钨的原子层沉积。
6. Structural determination of bilayer graphene on SiC(0001) using synchrotron radiation photoelectron diffraction [O] . I. Razado-Colambo, J. Avila, D. Vignaud, -1

机译：同步辐射光电子衍射法测定SiC（0001）上双层石墨烯的结构
7. Revealing the atomic structure of the buffer layer between SiC(0001) and epitaxial graphene [O] . Goler, Sarah, Coletti, Camilla, Piazza, Vincenzo, 2013

机译：揭示siC（0001）与siC之间缓冲层的原子结构外延石墨烯

Atomic surface structure of graphene and its buffer layer on SiC(0001): A chemical-specific photoelectron diffraction approach

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