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Giant edge state splitting at atomically precise graphene zigzag edges.


ABSTRACT: Zigzag edges of graphene nanostructures host localized electronic states that are predicted to be spin-polarized. However, these edge states are highly susceptible to edge roughness and interaction with a supporting substrate, complicating the study of their intrinsic electronic and magnetic structure. Here, we focus on atomically precise graphene nanoribbons whose two short zigzag edges host exactly one localized electron each. Using the tip of a scanning tunnelling microscope, the graphene nanoribbons are transferred from the metallic growth substrate onto insulating islands of NaCl in order to decouple their electronic structure from the metal. The absence of charge transfer and hybridization with the substrate is confirmed by scanning tunnelling spectroscopy, which reveals a pair of occupied/unoccupied edge states. Their large energy splitting of 1.9?eV is in accordance with ab initio many-body perturbation theory calculations and reflects the dominant role of electron-electron interactions in these localized states.

SUBMITTER: Wang S 

PROVIDER: S-EPMC4873614 | biostudies-literature | 2016 May

REPOSITORIES: biostudies-literature

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Giant edge state splitting at atomically precise graphene zigzag edges.

Wang Shiyong S   Talirz Leopold L   Pignedoli Carlo A CA   Feng Xinliang X   Müllen Klaus K   Fasel Roman R   Ruffieux Pascal P  

Nature communications 20160516


Zigzag edges of graphene nanostructures host localized electronic states that are predicted to be spin-polarized. However, these edge states are highly susceptible to edge roughness and interaction with a supporting substrate, complicating the study of their intrinsic electronic and magnetic structure. Here, we focus on atomically precise graphene nanoribbons whose two short zigzag edges host exactly one localized electron each. Using the tip of a scanning tunnelling microscope, the graphene nan  ...[more]

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