Localized doping through lithium intercalation in twisted bilayer graphene

Lithium atoms intercalating between layers of graphene show an energetic preference for regions of AA stacking. Density functional theory calculations employing commensurate supercells with twist angles of 7.3° and 2.5° are used to study the energetics, atomic relaxation, and electronic structure of Li intercalation in twisted graphene bilayers, with results extrapolated to the magic angle.