Battery systems including battery cells and hydrogen-permeable membranes

What is claimed is: 1 . A battery system comprising: a first battery cell comprising: a first cell enclosure disposed about a first cell interior; and at least one first multi-layer stack that is disposed in the first cell interior and that comprises a first cathode, a first anode and a first separator disposed between the first anode and the first cathode; and a first hydrogen-permeable membrane in fluid communication with the first cell interior and configured to selectively allow any hydrogen produced in the first battery cell to pass from the first cell interior through the first hydrogen-permeable membrane to outside of the first battery cell while substantially preventing other fluids from passing through the first hydrogen-permeable membrane. 2 . The battery system of claim 1 , further comprising a first hydrogen sensor in fluid communication with the first hydrogen-permeable membrane and configured to detect a presence of hydrogen that has passed through the first hydrogen-permeable membrane and that is proximate the first hydrogen sensor. 3 . The battery system of claim 2 , wherein the first hydrogen sensor is configured to detect the presence of hydrogen in an amount of from about 1 ppm to about 1000 ppm or greater. 4 . The battery system of claim 2 , further comprising a first battery module comprising a first plurality of battery cells including the first battery cell and a second battery cell, wherein the second battery cell comprises: a second cell enclosure defining and disposed about a second cell interior; and at least one second multi-layer stack that is disposed in the second cell interior and that comprises a second cathode, a second anode and a second separator disposed between the second anode and the second cathode; and a second hydrogen-permeable membrane in fluid communication with the second cell interior and configured to selectively allow any hydrogen produced in the second battery cell to pass from the second cell interior through the second hydrogen-permeable membrane to outside of the second battery cell while substantially preventing other fluids from passing through the second hydrogen-permeable membrane. 5 . The battery system of claim 4 , wherein the first hydrogen sensor is in fluid communication with the second hydrogen-permeable membrane, is configured to detect the presence of hydrogen that has passed through the second hydrogen-permeable membrane, and is proximate the first hydrogen sensor. 6 . The battery system of claim 5 , further comprising a cell management unit in communication with the first hydrogen sensor and operative to determine a concentration of hydrogen and/or a rate of change of the concentration of hydrogen with respect to time in response to the presence of hydrogen detected by the first hydrogen sensor and to compare the concentration and/or the rate of change to a corresponding predetermined threshold concentration value and/or a corresponding predetermined threshold rate of change value. 7 . The battery system of claim 6 , wherein the cell management unit is operative to direct a control action in response to the concentration and/or the rate of change exceeding the corresponding predetermined threshold concentration value and/or the corresponding predetermined threshold rate of change value, wherein the control action includes transmitting a warning notification to a receiving device. 8 . The battery system of claim 7 , wherein the receiving device includes a battery management system. 9 . The battery system of claim 4 , further comprising a battery pack comprising a plurality of battery modules including the first battery module and a second battery module, wherein the second battery module comprises a second plurality of battery cells including a third battery cell and a fourth battery cell, wherein the third battery cell comprises: a third cell enclosure defining and disposed about a third cell interior; and at least one third multi-layer stack that is disposed in the third cell interior and that comprises a third cathode, a third anode and a third separator disposed between the third anode and the third cathode; and a third hydrogen-permeable membrane in fluid communication with the third cell interior and configured to selectively allow any hydrogen produced in the third battery cell to pass from the third cell interior through the third hydrogen-permeable membrane to outside of the third battery cell while substantially preventing other fluids from passing through the third hydrogen-permeable membrane, and wherein the fourth battery cell comprises: a fourth cell enclosure defining and disposed about a fourth cell interior; and at least one fourth multi-layer stack that is disposed in the fourth cell interior and that comprises a fourth cathode, a fourth anode and a fourth separator disposed between the fourth anode and the fourth cathode; and a fourth hydrogen-permeable membrane in fluid communication with the fourth cell interior and configured to selectively allow any hydrogen produced in the fourth battery cell to pass from the fourth cell interior through the fourth hydrogen-permeable membrane to outside of the fourth battery cell while substantially preventing other fluids from passing through the fourth hydrogen-permeable membrane. 10 . The battery system of claim 9 , wherein the first hydrogen sensor is in fluid communication with the second hydrogen-permeable membrane, the third hydrogen-permeable membrane, and the fourth hydrogen-permeable membrane and is configured to detect the presence of hydrogen that has passed through the second hydrogen-permeable membrane, the third hydrogen-permeable membrane, the fourth hydrogen-permeable membrane, or a combination thereof and that is proximate the first hydrogen sensor. 11 . The battery system of claim 10 , further comprising a battery management system in communication with the first hydrogen sensor and operative to determine a concentration of hydrogen and/or a rate of change of the concentration of hydrogen with respect to time in response to the presence of hydrogen detected by the first hydrogen sensor and to compare the concentration and/or the rate of change to a corresponding predetermined threshold concentration value and/or a corresponding predetermined threshold rate of change value. 12 . The battery system of claim 11 , wherein the battery management system is operative to direct a control action in response to the concentration and/or the rate of change exceeding the corresponding predetermined threshold concentration value and/or a corresponding predetermined threshold rate of change value, wherein the control action includes transmitting a warning notification to a receiving device. 13 . The battery system of claim 1 , wherein the battery system is operably disposed in a vehicle. 14 . The battery system of claim 1 , wherein the hydrogen-permeable membrane has a hydrogen selectivity value of at least 99.0%. 15 . The battery system of claim 1 , wherein the hydrogen-permeable membrane is chosen from a polymeric, a porous ceramic/carbon, a dense ceramic, a dense metal, and combinations thereof. 16 . The battery system of claim 15 , wherein the dense metal comprises palladium. 17 . The battery system of claim 1 , wherein the first battery cell is chosen from a pouch cell, a prismatic cell, or a cylindrical cell. 18 . A battery system comprising: a battery module comprising a cell management unit, a hydrogen sensor in communication with the cell management unit, and a plura