▎ 摘　　要

We report the formation of mesoporous hollow carbons with diameters of about 30-40 nm on a graphene (MHCG) surface formed using graphite, the surfactant Pluronic F-127, and porous silica on the graphene as a template to produce a sheet. The specific surface area of the sample produced is 1793.45 m(2) g(-1), which is hundreds of times larger than that of graphite (31.38 m(2) g(-1)). When applied to supercapacitor electrodes, the MHCG electrode exhibits outstanding maintenance of energy density above 30 W h kg(-1) even under 1 kW kg(-1) power density, which is attributed to extremely fast electron supply through graphene layers and facile penetration of electrolyte through highly-developed mesopores.