Abdelkader Kara scite author profile

Using atomic resolved scanning tunneling microcppy, we present here the experimental evidence of a silicene sheet (graphene like structure) epitaxially grown on a close-packed silver surface (Ag(111)). This has been achieved via direct condensation of a silicon atomic flux onto the single-crystal substrate in ultra-high vacuum conditions. A highly ordered silicon structure, arranged within a honeycomb lattice is synthesized and presenting two silicon sub-lattices occupying positions at different heights (0.02 nm) indicating possible sp 2 -sp 3 hybridizations.

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Graphene-like silicon nanoribbons on Ag(110): A possible formation of silicene

Aufray¹,

Kara²,

Vizzini³

et al. 2010

955

675

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Scanning tunneling microscopy ͑STM͒ and ab initio calculations based on density functional theory ͑DFT͒ were used to study the self-aligned silicon nanoribbons on Ag͑110͒ with honeycomb, graphene-like structure. The silicon honeycombs structure on top of the silver substrate is clearly observed by STM, while the DFT calculations confirm that the Si atoms adopt spontaneously this new silicon structure.

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Evidence of graphene-like electronic signature in silicene nanoribbons

et al. 2010

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We report on the electronic properties of straight, 1.6 nm wide, silicene nanoribbons on Ag(110), arranged in a one-dimensional grating with a pitch of 2 nm, whose high-resolution scanning tunneling microscopy images reveal a honeycomb geometry. Angle-resolved photoemission shows quantum confined electronic states of one-dimensional character. The silicon band dispersion along the direction of the nanoribbons suggests a behavior analogous to the Dirac cones of graphene on different substrates.

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Abdelkader Kara

Epitaxial growth of a silicene sheet

Graphene-like silicon nanoribbons on Ag(110): A possible formation of silicene

Evidence of graphene-like electronic signature in silicene nanoribbons

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