Solid state battery system usable at high temperatures and methods of use and manufacture thereof

What is claimed is: 1. A battery cell comprising: a solid-state electrolyte (SSE) comprising, a solid-state dense region having a porosity of less than 5%; and a solid-state first porous region having pores and a porosity of 40% to 90%; a cathode contacting the SSE, wherein the cathode comprises a cathode active material selected from the group consisting of a lithiated and/or non-lithiated form of TiS 2 , MoS 2 , WS 2 , vanadium sulfides, ZrS 2 , NbS 2 , TaS 2 , CuS, and NiS; and an anode material disposed in the pores of at least a portion of the solid-state first porous region. 2. The battery cell of claim 1 , wherein the anode material comprises lithium metal. 3. The battery cell of claim 1 , wherein the anode material is lithium metal. 4. The battery cell of claim 1 , wherein the anode material comprises sodium metal. 5. The battery cell of claim 1 , wherein the anode material is sodium metal. 6. The battery cell of claim 1 , wherein the pores contain melted anode material. 7. The battery cell of claim 3 , wherein the cathode active material is a lithiated and/or non-lithiated form of TiS 2 . 8. The battery cell of claim 1 , wherein the battery cell is operable up to 400° C. 9. A method of operating the battery cell of claim 1 , comprising discharging and charging the battery cell at a temperature up to 300° C. 10. The battery cell of claim 1 , wherein the SSE is a lithium garnet solid-state electrolyte (SSE); and the anode material comprises lithium metal. 11. The battery cell of claim 10 , wherein the lithium metal anode material is in a melted state. 12. The battery cell of claim 10 , wherein the battery cell is operable for charging and discharging at 150° C. 13. The battery cell of claim 10 , wherein the cathode active material is a lithiated and/or non-lithiated form of TiS 2 . 14. The battery cell of claim 10 , wherein the battery cell is operable from 60 to 150° C. to charge and discharge the battery. 15. The method of claim 9 comprising: discharging and charging the battery cell at a temperature of 80-150° C. 16. The method of claim 9 comprising: discharging and charging the battery cell at a temperature of 100-150° C. 17. The method of claim 9 comprising: discharging and charging the battery cell at a temperature of 150° C. 18. The method of claim 9 comprising: discharging the battery cell during or after contact with a flame. 19. A battery cell comprising: a solid-state electrolyte (SSE) comprising, a solid-state dense region having a porosity of less than 5%; and a solid-state first porous region having pores and a porosity of 40% to 90%; a cathode contacting the SSE, wherein the cathode comprises a cathode active material selected from the group consisting of a lithiated and/or non-lithiated form of TiS 2 , MoS 2 , WS 2 , vanadium sulfides, ZrS 2 , NbS 2 , TaS 2 , CuS, and NiS, and wherein electrically conductive carbon is located on a surface of the cathode active material; and an anode material disposed in the pores of at least a portion of the solid-state first porous region. 20. A battery cell comprising: a solid-state electrolyte (SSE) comprising, a solid-state dense region having a porosity of less than 5%; and a solid-state first porous region having pores and a porosity of 40% to 90%; a cathode contacting the SSE, wherein the cathode comprises a cathode active material selected from the group consisting of a lithiated and/or non-lithiated form of TiS 2 , MoS 2 , WS 2 , vanadium sulfides, ZrS 2 , NbS 2 , TaS 2 , CuS, and NiS, and wherein carbon nanotubes are located on a surface of the cathode active material; and an anode material disposed in the pores of at least a portion of the solid-state first porous region. 21. A battery cell comprising: a solid-state electrolyte (SSE) comprising, a solid-state dense region having a porosity of less than 5%; and a solid-state first porous region having pores and a porosity of 40% to 90%; a cathode contacting the SSE, wherein the cathode comprises a cathode active material selected from the group consisting of a lithiated and/or non-lithiated form of TiS 2 , MoS 2 , WS 2 , vanadium sulfides, ZrS 2 , NbS 2 , TaS 2 , CuS, and NiS, wherein sulfur particles are present within the cathode active material; and an anode material disposed in the pores of at least a portion of the solid-state first porous region.