High surface area nano-structured graphene composites and capacitive devices incorporating the same

We claim: 1. A multilayer graphene composite structure, comprising: a first graphene sheet; a second graphene sheet spaced at least 5 nm away from the first graphene sheet; and a plurality of metallic spacers disposed between the respective first graphene sheet and the second graphene sheet; wherein each respective metallic spacer is in contact with the first graphene sheet and the second graphene sheet; wherein the plurality of metallic spacers are selected from the group including platinum particles, palladium particles, nickel particles, and combinations thereof; and wherein the respective graphene sheets each includes a plurality of etched defect structures, each etched defect structure positioned where each respective graphene sheet intersects a respective metallic spacer. 2. The structure of claim 1 wherein the etched defect structures are members of the group including trenches, ribbons, islands and combinations thereof. 3. The structure of claim 1 wherein the spacers have diameters of between about 5 nanometers and about 80 nanometers. 4. A multilayer graphene composite material, comprising: a first graphene sheet; a second graphene sheet spaced at least 5 nm away from the first graphene sheet; and a plurality of metallic spacers disposed between the respective first graphene sheet and the second graphene sheet; wherein the metallic spacers have diameters of between about 5 nanometers and about 80 nanometers; wherein each respective metallic spacer rests against the first graphene sheet and the second graphene sheet; wherein the plurality of metallic spacers are selected from the group including platinum particles, palladium particles, nickel particles, and combinations thereof; and wherein the respective graphene sheets each includes a plurality of defect nanostructures, each defect nanostructure positioned where each respective metallic spacer rests against a respective graphene sheet. 5. A multilayer graphene composite electrode material, comprising: a first graphene sheet; a second graphene sheet spaced at least 5 nm away from the first graphene sheet; and a plurality of metallic spacers disposed between the respective first graphene sheet and the second graphene sheet; wherein each respective metallic spacer is contained between the first and second graphene sheet; wherein the metallic spacers have diameters of between about 5 nanometers and about 80 nanometers; wherein each respective metallic spacer pushes the first and second graphene sheets apart; wherein the plurality of metallic spacers are selected from the group including platinum particles, palladium particles, nickel particles, and combinations thereof; and wherein each respective graphene sheet includes a plurality of etched nanostructures, each etched nanostructure positioned where a respective metallic spacer rests against a respective graphene sheet.