sp2/sp3 bonding controlling mechanism at the α-Al2O3|graphene interface

Abstract

First-principles calculations reported here illuminate the effects of the interfacial properties of α-Al2O3 and graphene, with emphasis on the structural and electronic properties. Various contact interfaces and different α-Al2O3 surface terminations are considered with on and slightly-off stoichiometric aluminium oxide. We show that depending on whether aluminium or oxygen is in contact with graphene, an sp3 structural deformation and spontaneous spin-polarization may occur next to the interface contact. Interestingly, some cases cause a p-type doping in the graphene band structure, depending on the initial α-Al2O3 geometry placed on graphene. The importance of leaving the surface dangling bonds of alumina saturated or not is also highlighted, and we show that it might be a control mechanism for opening a gap in graphene by the influence of the sp3 bond between oxygen and carbon atoms at the interface. We discuss the potential of utilizing this sensitivity for practical applications.