Battery cells including thermally fused energy discharge elements

What is claimed is: 1 . A battery cell comprising: a first auxiliary current collector; a first electrode of a first polarity; a first thermal fuse positioned between the first auxiliary current collector and a first current collector, the first current collector positioned between the first thermal fuse and the first electrode of the first polarity, the first current collector in conductive communication with the first electrode; the first thermal fuse positioned between the first auxiliary current collector and the first current collector, the first auxiliary current collector in conductive communication with a second electrode of a second polarity, opposite the first polarity; wherein the first thermal fuse electrically insulates the first auxiliary current collector from the first current collector and allows an electrical connection between the first auxiliary current collector and the first electrode at an elevated temperature. 2 . The battery cell of claim 1 further comprising: the second electrode in conductive communication with a second current collector, the first auxiliary current collector in conductive communication with the second current collector, wherein the first auxiliary current collector electrically connecting to the first current collector further electrically connects the first current collector to the second current collector by way of the conductive communication between the first auxiliary current collector and the first current collector at the elevated temperature. 3 . The battery cell of claim 2 further comprising: a second auxiliary current collector; a second thermal fuse positioned between the second auxiliary current collector and the second current collector, the second current collector positioned between the second thermal fuse and the second electrode, the second current collector in electrical communication with the second electrode; the second thermal fuse positioned between the second auxiliary current collector and the second current collector; wherein the second thermal fuse provides electrical insulation between the second auxiliary current collector and the second current collector and provides an electrical connection between the second auxiliary current collector and the second electrode at the elevated temperature. 4 . The battery cell of claim 3 wherein the first electrode is an anode and further comprising a solid-state electrolyte layer adjacent the anode. 5 . The battery cell of claim 3 wherein the second electrode is a cathode and further comprising a solid-state electrolyte layer adjacent the cathode. 6 . The battery cell of claim 1 wherein the first thermal fuse is a phase change material that transitions from a solid phase to a liquid phase at the elevated temperature. 7 . The battery cell of claim 1 further comprising: a third auxiliary current collector adjacent a thermal barrier layer; the third auxiliary current collector and the thermal barrier layer between the first thermal fuse and the first current collector, the third auxiliary current collector in conductive communication with the first current collector. 8 . The battery cell of claim 6 wherein the phase change material transitions to the liquid phase at the elevated temperature in the range of 100° C. to 110° C. 9 . The battery cell of claim 4 wherein the phase change material transitions to the liquid phase at the elevated temperature in the range of 100° C. to 170° C. 10 . The battery cell of claim 1 wherein the first thermal fuse comprises a polyethylene. 11 . The battery cell of claim 1 further comprising a flexible pouch encapsulating the first auxiliary current collector and the first thermal fuse. 12 . The battery cell of claim 1 further comprising a flexible pouch and wherein the first auxiliary current collector and the first thermal fuse are external to the pouch. 13 . The battery cell of claim 1 wherein the first thermal fuse is a coating on one of the first auxiliary current collector or the first electrode. 14 . The battery cell of claim 1 wherein the first thermal fuse is a layer that begins melting at the elevated temperature. 15 . The battery cell of claim 1 wherein the elevated temperature is above a normal operating temperature range for the battery cell. 16 . A battery comprising: a first battery cell unit comprising a first electrode of a first polarity separated from a second electrode of a second opposing polarity by way of a solid electrolyte; a second battery cell unit comprising a third electrode of the first polarity separated from a fourth electrode of the second opposing polarity by way of a solid electrolyte; and a thermal fuse between and electrically isolating the first battery cell unit and the second battery cell unit, the thermal fuse melting to create a conductive path between the second electrode of the second opposing polarity with the third electrode of the first polarity. 17 . The battery of claim 13 wherein: the first battery cell unit further comprises a first current collector in electrical communication with the first electrode of the first polarity and a second current collector in electrical communication with the second electrode of the second polarity; the second battery cell unit further comprises a third current collector in electrical communication with the third electrode of the first polarity and a fourth current collector in electrical communication with the fourth electrode of the second polarity; and the thermal fuse between the first current collector and the fourth current collector. 18 . The battery of claim 14 further comprising a first auxiliary current collector and a second thermal fuse between the first current collector and the first auxiliary current collector, the first auxiliary current collector forming a conductive communication path with the fourth current collector when the thermal fuse reaches an elevated temperature. 19 . A battery cell comprising: a thermal fuse element electrically insulating an auxiliary current collector and a current collector, the current collector coupled with a first electrode of a first polarity, the auxiliary current collector in conductive communication with a second electrode of an opposing polarity to the first polarity, the thermal fuse element melting at an elevated temperature to discharge the battery cell by providing a conductive path between the first electrode and the second electrode. 20 . The battery cell of claim 16 wherein the thermal fuse element is a phase change material that begins melting at the elevated temperature to provide the conductive path between the first electrode and the second electrode. 21 . A method of discharging a battery comprising: in a battery comprising: a first electrode of a first polarity conductively coupled with a first current collector, and a first auxiliary current collector electrically separated from the first current collector by way of a first phase change layer; and a second electrode of a second polarity, opposite the first polarity, conductively coupled with a second current collector, the first auxiliary current collector conductively coupled with the second current collector, melting the first phase change layer to conductively couple the first electrode to the second electrode creating a discharge path therebetween.