▎ 摘　　要

NOVELTY - Material comprises: a first graphene sheet; a second graphene sheet; and many fullerenes positioned on the first graphene sheet, where the second graphene sheet is positioned on top of the fullerenes. The fullerenes become carbon nanotubes. The material further comprises: a second many fullerenes and a third graphene sheet, where the second fullerenes are positioned on the second graphene sheet, and the third graphene sheet is positioned on top of the second fullerenes; and many graphene sheets and a second many fullerenes, where the second fullerenes are positioned between the second graphene sheet and the graphene sheets forming multiple layers. USE - The material is useful in an electrical application, body armor, semiconductor, battery anode, solar panels, heat sinks, structural concrete members, structural steel members, precast concrete structural members, bridges, highways, streets, skyscrapers, sidewalks, foundations, dams, industrial plants, canals, airports, structural composites, aircraft, military equipment, and civil infrastructure. ADVANTAGE - The material: exhibits mechanical propensities and characteristics that supersede that of any comparable material to the industries in which it is applied; displays superiority because of its thermoconductivity properties which is twice that of diamond whilst it has a capacitance twice that of graphene; and utilizes graphene and carbon nanotubes that inherently possess tremendous structural qualities and both are non-corrosive and exhibit semi-conductive properties, and combining these different forms of carbon together in alternating layers that allows for continuation of strength and conductivity. DETAILED DESCRIPTION - INDEPENDENT CLAIMS are also included for: (a) making material; and (b) a system. DESCRIPTION OF DRAWING(S) - The figure illustrates workflow diagram of forming a composite material. Generating nearly pristine graphene (100) Depositing fullerenes onto bottom graphene sheet (102) Placing subsequent graphene sheet on top of fullerenes (104) Applying laser radiation (106) Transforming fullerenes or morph into carbon nanotubes (108)