Solid state fiber-based battery system and method of forming same

What is claimed is: 1. A solid state battery system comprising: a plurality of fiber battery cells formed into a pattern, each fiber battery cell comprising: a fiber core comprises a carbon graphite fiber or a carbon nanotube fiber; an electrolyte layer formed over the fiber core; and an outer conductive layer formed over the electrolyte layer; a first terminal electrically coupled to a first fiber core of a first fiber battery cell of the plurality of fiber battery cells; and a second terminal electrically coupled to a first outer conductive layer of the first fiber battery cell, wherein the plurality of fiber battery cells extend through the second terminal, wherein the second terminal is electrically coupled to each outer conductive layer of the plurality of fiber battery cells, wherein each fiber core of the plurality of fiber battery cells electrically couples to first terminal, wherein a first portion of the first fiber battery cell is between the first terminal and the second terminal, and wherein the first portion does not include the first outer conductive layer. 2. The solid state battery system of claim 1 , wherein the electrolyte layer comprises a solid electrolyte. 3. The solid state battery system of claim 2 , wherein the solid electrolyte comprises a glassy material. 4. The solid state battery system of claim 3 , wherein the glassy material comprises a lithium ion conducting material. 5. The solid state battery system of claim 2 , wherein the solid electrolyte comprises a crystalline material. 6. The solid state battery system of claim 5 , wherein the crystalline material comprises beta-Alumina. 7. The solid state battery system of claim 1 , wherein the outer conductive layer comprises a magnesium intercalation compound. 8. The solid state battery system of claim 1 , wherein the outer conductive layer comprises a lithium intercalation compound. 9. The solid state battery system of claim 1 , wherein the outer conductive layer comprises a Group 1 metal compound or a Group 2 metal compound. 10. The solid state battery system of claim 1 , wherein the plurality of fiber battery cells are arranged in a configuration having at least one row of fiber battery cells. 11. The solid state battery system of claim 1 , wherein the plurality of fiber battery cells are formed into a mesh pattern or a weave pattern. 12. The solid state battery system of claim 1 , wherein the pattern is a part of a composite part for a vehicle. 13. The solid state battery system of claim 1 , wherein the pattern is a part of a wing skin for an aircraft. 14. The solid state battery system of claim 1 , wherein the pattern is a part of a spar for an aircraft. 15. A method of forming a solid state battery system, the method comprising the steps of: forming a plurality of fiber battery cells into a pattern, wherein each fiber battery cell of the plurality of fiber battery cells is formed by: forming an electrolyte layer over a fiber core, the fiber core comprising a carbon-nanotube; and forming an outer conductive layer over the electrolyte layer; electrically coupling a first terminal each fiber core of the plurality of fiber battery cells; and electrically coupling a second terminal to each outer conductive layer of the plurality of fiber battery cells, wherein the plurality of fiber battery cells extend through the second terminal after electrically coupling the second terminal, wherein a first portion of a first battery cell of the plurality of fiber battery cells is between the first terminal and the second terminal after electrically coupling first terminal and after electrically coupling the second terminal, and wherein the first portion does not include the first outer conductive layer. 16. The method of claim 15 , further comprising, after forming the electrolyte layer, applying an electrical field, a magnetic field, or a combination thereof to the electrolyte layer during a curing period. 17. An apparatus comprising: a composite part for a vehicle, the composite part comprising a battery system, the battery system comprising: a plurality of fiber battery cells formed into a pattern, each fiber battery cell comprising: a fiber core comprising a carbon-nanotube; an electrolyte layer formed over the fiber core; and an outer conductive layer formed over the electrolyte layer; a first terminal electrically coupled to a first fiber core of a first fiber battery cell of the plurality of fiber battery cells; and a second terminal electrically coupled to a first outer conductive layer of the first fiber battery cell, wherein the plurality of fiber battery cells extend through the second terminal, wherein the second terminal is electrically coupled to each outer conductive layer of the plurality of fiber battery cells, wherein each fiber core of the plurality of fiber battery cells electrically couples to first terminal, wherein a first portion of the first fiber battery cell is between the first terminal and the second terminal, and wherein the first portion does not include the first outer conductive layer. 18. The apparatus of claim 17 , wherein the first terminal is electrically coupled to a second fiber core of a second fiber battery cell of the plurality of fiber battery cells, and wherein the second terminal is electrically coupled to a second outer conductive layer of the second fiber battery cell.