Capacitor with electrodes made of an interconnected corrugated carbon-based network

The invention claimed is: 1. A micro-supercapacitor comprising: a. a first electrode; b. a second electrode; c. a first conductor interfaced with the first electrode; d. a second conductor interfaced with the second electrode; e. a non-conductive liner contacting at least a portion of the first conductor and the second conductor; and f. an electrolyte in contact with the first electrode and the second electrode, wherein at least one of the first electrode or the second electrode comprises an interconnected corrugated carbon-based network (ICCN) having a plurality of expanded and interconnected carbon layers, having a plurality of metal nanoparticles deposited in the ICCN, and wherein the micro-supercapacitor maintains at least 60% of the stack capacitance when operated at a current density of about 1.84×10 4 mA/cm 3 . 2. The micro-supercapacitor of claim 1 , wherein the non-conductive liner contacting the at least a portion of the first conductor and the second conductor provides an electrical terminal configured to be coupled to external circuitry. 3. The micro-supercapacitor of claim 1 , wherein the non-conductive liner seals the electrolyte within the micro-supercapacitor device. 4. The micro-supercapacitor of claim 1 , wherein the non-conductive liner contacts at least a portion of the first electrode or the second electrode. 5. The micro-supercapacitor of claim 1 , wherein the electrolyte comprises a gel electrolyte. 6. The micro-supercapacitor of claim 1 , wherein the electrolyte comprises fumed silica (FS) nano-powder mixed with an ionic liquid. 7. The micro-supercapacitor of claim 1 , wherein the electrolyte comprises 1-butyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide. 8. The micro-supercapacitor of claim 1 , wherein the electrolyte comprises a hydrogel electrolyte. 9. The micro-supercapacitor of claim 1 , wherein the electrolyte comprises poly(vinyl alcohol) (PVA)-H 2 SO 4 . 10. The micro-supercapacitor of claim 9 , wherein the micro-supercapacitor is a solid-state micro-supercapacitor. 11. The micro-supercapacitor of claim 1 , wherein a first conductive strip or a second conductive strip comprises copper (Cu), aluminum (Al), or an ICCN structure, wherein the first conductive strip and the second conductive strip are interfaced with the first electrode and the second electrode, respectively, to provide electrically conductive terminals to couple to external circuitry. 12. The micro-supercapacitor of claim 1 , wherein the first electrode comprises a first plurality of electrode digits, wherein the second electrode comprises a second plurality of electrode digits, and wherein the first plurality of electrode digits of the first electrode and the second plurality of electrode digits of the second electrode are woven in an interdigitating pattern. 13. The micro-supercapacitor of claim 12 , further comprising an interspace distance between the interdigitating pattern of the first electrode and the second electrode of about 150 micrometers. 14. The micro-supercapacitor of claim 1 , wherein the first electrode or the second electrode comprises 4, 8, or 16 electrode digits. 15. The micro-supercapacitor of claim 1 wherein the first electrode or the second electrode comprises widths from about 330 micrometer to about 1770 micrometers. 16. The micro-supercapacitor of claim 1 , further comprising a total area of less than about 50 square millimeters, 40 square millimeters, or 30 square millimeters. 17. The micro-supercapacitor of claim 1 , wherein the first electrode or the second electrode comprises an edge dimension of from about 220 micrometers to about 1770 micrometers. 18. The micro-supercapacitor of claim 1 , wherein the micro-supercapacitor is comprised within an integrated circuit package or a nanoelectromechanical device. 19. A micro-supercapacitor comprising: a. a first electrode; b. a second electrode; c. a first conductor interfaced with the first electrode; d. a second conductor interfaced with the second electrode; e. a non-conductive liner contacting at least a portion of the first conductor and the second conductor; and f. an electrolyte in contact with the first electrode and the second electrode, wherein at least one of the first electrode or the second electrode comprises an interconnected corrugated carbon-based network (ICCN) having a plurality of expanded and interconnected carbon layers, wherein the micro-supercapacitor exhibits a nearly triangular CC curve when operated at a first current density of about 1.684×10 4 mA/cm 3 , wherein the micro-supercapacitor exhibits a stack capacitance of around about 3.05 F/cm 3 when operated at a second current density of about 16.8 mA/cm 3 , and wherein the micro-supercapacitor maintains about 60% of the stack capacitance when operated at a third current density of about 1.84×10 4 mA/cm 3 . 20. A micro-supercapacitor comprising: a. a first electrode; b. a second electrode; c. a first conductor interfaced with the first electrode; d. a second conductor interfaced with the second electrode; e. a non-conductive liner contacting at least a portion of the first conductor and the second conductor; and f. an electrolyte in contact with the first electrode and the second electrode, wherein at least one of the first electrode or the second electrode comprises an interconnected corrugated carbon-based network (ICCN) having a plurality of expanded and interconnected carbon layers, wherein the non-conductive liner comprises a central window.