Spatially resolving and energy splitting of edge state in zigzag edged triangle graphene quantum dots on Cu(111) surface

Wei Sheng; Jin Jing; Wang Zhongping; Lu Yan; Wang Li

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Spatially resolving and energy splitting of edge state in zigzag edged triangle graphene quantum dots on Cu(111) surface

机译：在Cu（111）表面上的Z字形边缘三角形石墨烯量子点中的空间分辨和能量分裂边缘状态

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The electronic structure of graphene nanoribbons (GNRs) and graphene quantum dots (GQDs) has been predicted to depend sensitively on the crystallographic orientation of their edges. However, direct observation of edge state for triangle graphene quantum dots (TGQDs) has not been verified experimentally. Here we explore, using the scanning tunneling spectroscopy (STS), the zigzag edged electronic property of varisized TGQDs. Predominantly zigzag-edged TGQDs exhibit edge-localized states with the energy splittings of about 0.2-0.3 V when its lateral dimension is less than 7 nm. The measured energy splittings agree with theoretical calculations, and show that these edge states originate from a hybridization effect of the substrate, and not from a magnetic splitting of the edge state.

机译：已经预测了石墨烯纳米纤维（GNRS）和石墨烯量子点（GQDS）的电子结构，以敏感地依赖于其边缘的晶体取向。然而，对三角形石墨烯量子点（TGQD）的边缘状态的直接观察尚未通过实验验证。在这里，我们使用扫描隧道光谱（STS）来探索变化TGQDS的Z字形边缘电子特性。主要的曲折边缘TGQDS在其横向尺寸小于7nm时，具有约0.2-0.3V的能量分配的边缘局部状态。测量的能量分裂与理论计算一致，并表明这些边缘状态源自基板的杂交效果，而不是来自边缘状态的磁性分裂。

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《Physica, E. Low-dimensional systems & nanostructures》 |2017年第2017期|共5页
作者
Wei Sheng; Jin Jing; Wang Zhongping; Lu Yan; Wang Li;
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Nanchang Univ Dept Phys Nanchang 330031 Jiangxi Peoples R China;

Nanchang Univ Dept Phys Nanchang 330031 Jiangxi Peoples R China;

Nanchang Univ Dept Phys Nanchang 330031 Jiangxi Peoples R China;

Nanchang Univ Dept Phys Nanchang 330031 Jiangxi Peoples R China;

Nanchang Univ Dept Phys Nanchang 330031 Jiangxi Peoples R China;

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正文语种 eng
中图分类半导体物理学;特种结构材料;
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1. Spatially resolving and energy splitting of edge state in zigzag edged triangle graphene quantum dots on Cu(111) surface [J] . Wei Sheng, Jin Jing, Wang Zhongping, Physica, E. Low-dimensional systems & nanostructures . 2017,第期

机译：在Cu（111）表面上的Z字形边缘三角形石墨烯量子点中的空间分辨和能量分裂边缘状态
2. Effect of edge reconstruction and passivation on zero-energy states and magnetism in triangular graphene quantum dots with zigzag edges [J] . O. Voznyy, A. D. Gueclue, P. Potasz, Physical review . 2011,第16期

机译：边缘重构和钝化对之字形边缘三角形石墨烯量子点的零能态和磁性的影响
3. Room-temperature magnetism and tunable energy gaps in edge-passivated zigzag graphene quantum dots [J] . Wei Hu, Yi Huang, Xinmin Qin, npj 2D Materials and Applications . 2019,第1期

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4. Ab initio calculations of energy and IR spectra of edge functionalized graphene quantum dots [C] . Tamara E. Timofeeva, Marfa N. Egorova, Aleksandra E. Tomskaya, 2D Systems of the Strong Correlated Electrons: From Fundamental Research to Practical Applications . 2018

机译：AB初始官能化石墨烯量子点的能量和IR光谱的计算
5. Quantum dots: Mid-infrared luminescence, (110) growth, single-dot electroluminescence, and cleaved-edge alignment. [D] . Wasserman, Daniel. 2004

机译：量子点：中红外发光，（110）生长，单点电致发光和裂边对齐。
6. Giant edge state splitting at atomically precise graphene zigzag edges [O] . Shiyong Wang, Leopold Talirz, Carlo A. Pignedoli, -1

机译：原子精确石墨烯之字形边缘处的巨型边缘状态分裂
7. Effect of edge reconstruction and passivation on zero-energy states and magnetism in triangular graphene quantum dots with zigzag edges [O] . Voznyy, O., Gufcue7lufc, A. D., Potasz, P., 2011

机译：边缘重构和钝化对之字形边缘三角形石墨烯量子点的零能态和磁性的影响

Spatially resolving and energy splitting of edge state in zigzag edged triangle graphene quantum dots on Cu(111) surface

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