Alkali doping of graphene: the crucial role of high temperature annealing

Abstract

The doping efficiency of lithium deposited at cryogenic temperatures on epitaxial and CVD monolayer graphene has been investigated under ultra-high vacuum conditions. Change of charge carrier density was monitored by gate voltage shift of the Dirac point and by Hall measurements, in low and high doping regimes. It was found that pre-annealing the graphene greatly enhanced the maximum levels of doping that could be achieved: doping saturated at n = 2× 1013 e-/cm2 without annealing, independent of sample type or previous processing; after a 900 K anneal, the saturated doping rose one order of magnitude to n = 2× 1014 e-/cm2.