Supercapacitor having a high volumetric energy density

We claim: 1. A supercapacitor cell comprising an anode having an anode active material and a first liquid electrolyte disposed in pores of a 3D porous anode current collector, a cathode having a cathode active material and a second liquid electrolyte disposed in pores of a 3D porous cathode current collector, a separator disposed between said anode and said cathode and in direct physical contact with said anode current collector and said cathode current collector, wherein said anode active material or cathode active material comprises graphene sheets, wherein said graphene sheets are selected from graphene chloride, graphene bromide, graphene iodide, and combinations thereof, wherein said anode active material or cathode active material constitutes an electrode active material loading greater than 7 mg/cm 2 , and wherein said anode active material and cathode active material combined exceeds 30% by weight of said supercapacitor cell, wherein said first liquid electrolyte is the same as or different than said second liquid electrolyte and wherein said 3D porous anode current collector or said 3D porous cathode current collector comprises a conductive foam structure selected from carbon fiber foam, graphite fiber foam, exfoliated graphite foam, and combinations thereof. 2. The supercapacitor cell of claim 1 , wherein said 3D porous anode current collector or 3D porous cathode current collector has a thickness no less than 500 μm and/or said anode active material and said cathode active material combined exceeds 60% by weight of said supercapacitor cell. 3. The supercapacitor cell of claim 1 , wherein said conductive foam structure contains at least 80% by volume of pores. 4. The supercapacitor cell of claim 1 , wherein said graphene sheets have a surface area greater than 500 m 2 /gram. 5. The supercapacitor cell of claim 1 , wherein said graphene sheets are coated with RuO 2 , TiO 2 , MnO 2 , Cr 2 O 3 , or Co 2 O 3 . 6. The supercapacitor cell of claim 1 , wherein said graphene sheets are coated or grafted with an intrinsically conductive polymer. 7. The supercapacitor cell of claim 1 , wherein said graphene sheets further include graphene sheets selected from pristine graphene, graphene oxide, reduced graphene oxide, graphene iodide, hydrogenated graphene, nitrogenated graphene, boron-doped graphene, nitrogen-doped graphene, chemically functionalized graphene, physically or chemically activated or etched versions thereof, and combinations thereof. 8. The supercapacitor cell of claim 7 , wherein said functionalized graphene sheets comprise functional groups selected from quinone, hydroquinone, quaternized aromatic amines, mercaptans, disulfides, and combinations thereof. 9. The supercapacitor cell of claim 1 , wherein said anode active material or cathode active material loading is greater than 15 mg/cm 2 , said anode active material and said cathode active material combined exceeds 40% by weight of said supercapacitor cell, and/or said 3D porous anode current collector or cathode current collector has a thickness no less than 300 μm. 10. The supercapacitor cell of claim 1 , wherein said anode active material or cathode active material loading is greater than 20 mg/cm 2 , said anode active material and said cathode active material combined exceeds 50% by weight of said supercapacitor cell, and/or said 3D porous anode current collector or cathode current collector has a thickness no less than 400 μm. 11. The supercapacitor cell of claim 1 , wherein said anode active material or cathode active material further comprises a redox pair partner material selected from a metal oxide, a conducting polymer, an organic material, a non-graphene carbon material, an inorganic material, or a combination thereof, wherein said partner material, in combination with said graphene sheets, forms a redox pair for developing pseudo-capacitance. 12. The supercapacitor cell of claim 11 , wherein said non-graphene carbon material is selected from activated carbon, activated meso-carbon micro beads, activated graphite, activated or chemically etched carbon black, activated hard carbon, activated soft carbon, carbon nanotube, carbon nanofiber, activated carbon fiber, activated graphite fiber, exfoliated graphite worms, activated graphite worms, activated expanded graphite flakes, and combinations thereof. 13. The supercapacitor cell of claim 11 , wherein said metal oxide or inorganic material is selected from RuO 2 , IrO 2 , NiO, MnO 2 , VO 2 , V 2 O 5 , V 3 O 8 , TiO 2 , Cr 2 O 3 , CO 2 O 3 , Co 3 O 4 , PbO 2 , Ag 2 O, Mo 2 N, and combinations thereof. 14. The supercapacitor cell of claim 1 , wherein said anode or said cathode contains graphene sheets as the only electrode active material and does not contain any other electrode active material. 15. The supercapacitor cell of claim 1 , wherein said anode or said cathode contains graphene sheets and one or more of the following materials as the only electrode active materials in said anode or cathode: (a) graphene sheets mixed with a carbon material; (b) multiple particles of a carbon material; (c) graphene sheets mixed with a partner material that forms a redox pair with said graphene sheets to develop pseudo-capacitance; (d) a carbon material mixed with a partner material that forms a redox pair with said carbon material to develop pseudo-capacitance; (e) nanodiscs, nanoplatelets, nano-coating, or nanosheets of an inorganic material selected from: (i) bismuth selenide or bismuth telluride, (ii) transition metal dichalcogenide or trichalcogenide, (iii) sulfide, selenide, or telluride of niobium, zirconium, molybdenum, hafnium, tantalum, tungsten, titanium, cobalt, manganese, iron, nickel, or a transition metal; (iv) boron nitride, (v) a combination thereof, wherein said discs, platelets, coating, or sheets have a thickness less than 100 nm and a specific surface area no less than 200 m 2 /g when measured in a dried state; or (f) an inorganic material mixed with a carbon material. 16. The supercapacitor cell of claim 15 , wherein said inorganic material is selected from a metal carbide, metal nitride, metal boride, metal dichalcogenide, or a combination thereof. 17. The supercapacitor cell of claim 1 , wherein said first liquid electrolyte or said second liquid electrolyte is selected from an aqueous liquid, an organic liquid, an ionic liquid, or a mixture of an organic liquid and an ionic liquid. 18. The supercapacitor cell of claim 1 , wherein a volume ratio of said anode active material-to-said first liquid electrolyte in said anode is from 1/5 to 20/1 and/or a volume ratio of said cathode active material-to-said second liquid electrolyte in said cathode is from 1/5 to 20/1. 19. The supercapacitor cell of claim 1 , wherein a volume ratio of said anode active material-to-said first liquid electrolyte in said anode is from 1/3 to 5/1 and/or a volume ratio of said cathode active material-to-said second liquid electrolyte in said cathode is from 1/3 to 5/1.