Sintered electrodes for a capacitor

What is claimed is: 1. An apparatus, comprising: a capacitor case sealed to retain electrolyte; a sintered cathode disposed in the capacitor case, the sintered cathode having a serpentine shape in a cross-section of the sintered cathode defining peaks in the cross-section of the sintered cathode on both a first side and a second side of the sintered cathode; a sintered anode disposed in the capacitor case, the sintered anode having a shape in a cross-section of the sintered anode including a plurality of voids shaped and positioned to receive the peaks on the first side of the sintered cathode, wherein one or more of the peaks on the first side of the sintered cathode are positioned within the voids such that a tip surface of each of the one or more peaks on the first side of the sintered cathode is nestled within and abutting a back surface of a respective void of the plurality of voids; a conductor coupled to the sintered anode, the conductor sealingly extending through the capacitor case to a terminal disposed on an exterior of the capacitor case; a separator between the sintered anode and the sintered cathode; and a second terminal disposed on the exterior of the capacitor case and in electrical communication with the sintered cathode, with the terminal and the second terminal electrically isolated from one another. 2. The apparatus of claim 1 , including a second sintered anode disposed in the capacitor case, the second sintered anode having a shape including a plurality of second voids shaped and positioned to receive the peaks on the second side of the sintered cathode, wherein one or more of the peaks on the second side of the sintered cathode are positioned within the second voids such that a tip surface of each of the one or more peaks on the second side of the sintered cathode is nestled within and abutting a back surface of a respective second void of the plurality of second voids. 3. The apparatus of claim 2 , wherein an assembled shape of the capacitor is a rectangular box shape. 4. The apparatus of claim 1 , wherein the plurality of voids include a triangular profile and the peaks of the sintered cathode include a triangular profile. 5. The apparatus of claim 1 , wherein the separator includes a dielectric polymer directly applied to an outer surface of the sintered cathode. 6. The apparatus of claim 1 , wherein the separator includes a microsphere coating applied to a surface of the sintered cathode. 7. The apparatus of claim 1 , wherein the sintered cathode includes a capacitance coating on an outer surface. 8. The apparatus of claim 7 , wherein the capacitance coating includes a titanium coating, a ruthenium coating, or a hafnium coating. 9. The apparatus of claim 1 , wherein the sintered anode and the sintered cathode comprise standalone slugs that includes a sintered portion, with the sintered portion being monolithic. 10. A method of forming a capacitor, comprising: sintering cathode material into a serpentine shape in a cross-section of the sintered cathode defining peaks in the cross-section of the sintered cathode on both a first side and a second side of the sintered cathode; sintering anode material into a shape in a cross-section of the sintered anode including a plurality of voids shaped and positioned to receive the peaks on the first side of the sintered cathode, wherein one or more of the peaks on the first side of the sintered cathode are positioned within the voids such that a tip surface of each of the one or more peaks on the first side of the sintered cathode is nestled within and abutting a back surface of a respective void of the plurality of voids; disposing a separator between the sintered anode and the sintered cathode; disposing the sintered anode and sintered cathode into a capacitor case; and providing a conductor coupled to the sintered anode, the conductor sealingly extending through the capacitor case to a terminal disposed on an exterior of the capacitor case; providing a second terminal disposed on the exterior of the capacitor case and in electrical communication with the sintered cathode, with the terminal and the second terminal electrically isolated from one another. 11. The method of claim 10 , including sintering a second sintered anode into a shape including a plurality of second voids shaped and positioned to receive the peaks on the second side of the sintered cathode, wherein one or more of the peaks on the second side of the sintered cathode are positioned within the second voids such that a tip surface of each of the one or more peaks on the second side of the sintered cathode is nestled within and abutting a back surface of a respective second void of the plurality of second voids. 12. The method of claim 11 , wherein an assembled shape of the capacitor is a rectangular box shape. 13. The method of claim 10 , wherein the separator includes a dielectric polymer directly applied to an outer surface of the sintered cathode. 14. The method of claim 10 , wherein the separator includes a microsphere coating applied to a surface of the sintered cathode. 15. The method of claim 10 , wherein the sintered cathode includes a capacitance coating on an outer surface.