Synthesis of Monolayer-Patched Graphene from Glucose

摘要

The extraordinary electronic and mechanical properties of graphene have stimulated intense research on developing simple methods for the large-scale synthesis of graphene. High-quality large-area graphene films prepared by the chemical vapor deposition of various carbon-containing molecules on arbitrary substrates could meet the requirements of large-area electronic applications. For the industrial production of conductive graphene powder on the ton scale,the chemical exfoliation of graphite minerals still remains the main manufacturing path. On the other hand, the exclusive two-dimensional polymerization of gra-phene-like structures from simple monomers still presents a challenge for carbon chemists.Further fine-tuning of the Fermi level of graphene by doping offers a way to control the electronic structure of carbonaceous materials and is of major interest for their application in electronics, electrodes, and catalysis. The electronic properties of doped graphene are strongly linked to the dopant concentration,'24' which is only poorly controlled by current methods. It is therefore highly challenging but desirable to develop effective approaches for fabricating graphene that is cheap yet of high quality (e.g. high surface area, high conductivity, doping level, and uniform morphology) in a controlled manner.