Graphene destruction by metal-carbide formation: An approach for patterning of metal-supported graphene

Abstract

With a combination of scanning tunneling microscopy, Auger electron spectroscopy and carbon monoxide titration the stability of graphene-Ni interfaces is investigated. Graphene supported on Ni(111) is stable to annealing temperature of 650°C. However, if additional Ni is deposited on the surface it becomes unstable at already 100°C and a surface-carbide is formed that allows the Ni deposit to penetrate the surface layer. Upon diffusion of all Ni deposits into the substrate, the graphene layer is reformed. The destruction of graphene by the formation of a carbide phase enables patterning of the graphene by controlled nickel deposition. © 2010 American Institute of Physics.