Exclusive Substitutional Nitrogen Doping on Graphene Decoupled from an Insulating Substrate

Moreno López, Juan Carlos; Fedi, Filippo; Argentero, Giacomo; Carini, Marco; Chimborazo, Johnny; Meyer, Jannik; Pichler, Thomas; Mateo Alonso, Aurelio; Ayala, Paola

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Date

2020-10-08

Author

Moreno López, Juan Carlos

Fedi, Filippo

Argentero, Giacomo

Carini, Marco

Chimborazo, Johnny

Meyer, Jannik

Pichler, Thomas

Mateo Alonso, Aurelio

Ayala, Paola

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Estadisticas en RECOLECTA
(LA Referencia)

Journal Of Physical Chemistry C 124(40) : 22150-22157 (2020)

URI

http://hdl.handle.net/10810/50150

Abstract

The on-surface synthesis of atomically flat N-doped graphene on oxidized copper is presented. Besides circumventing the almost standard use of metallic substrates for growth, this method allows producing graphene with similar to 2.0 at % N in a substitutional configuration directly decoupled from the substrate. Angle-resolved photoemission shows a linear energy-momentum dispersion where the Dirac point lies at the Fermi level. Additionally, the N functional centers can be selectively tailored in sp(2) substitutional configuration by making use of a purpose-made molecular precursor: dicyanopyrazophenanthroline (C16H6N6).

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