Incorporating reference electrodes into battery pouch cells

The invention claimed is: 1. An assembled linear stack of electrochemical cell members for a lithium-ion battery, the assembled linear stack comprising: five to thirty lithium-ion cell, flat-layer, anode members, with opposing layer faces, interspersed in a first linear stack portion with an equal number of lithium-ion cell, flat-layer, cathode members with opposing layer faces, the flat-layer anode and cathode members having like face shapes, the face of each anode member being coextensively separated from the face of an adjacent cathode member in the first linear stack portion by a porous separator layer member, each anode member comprising a copper foil current collector coated on both foil faces with a layer of porous lithium-ion cell anode material and each cathode member comprising an aluminum foil current collector layer coated on both foil faces with a layer of porous lithium-ion cell cathode material, the first linear stack portion having a three-layer cathode member at a first end of the first linear stack portion and a three-layer anode portion at the opposite, second end of the first linear stack portion; a porous separator layer member with opposing faces, one separator layer face co-extensively covering the layer of porous lithium-ion cell cathode material at the second end of the first linear stack portion and a two-layer lithium-ion cell anode member placed against the opposite face of the porous separator layer member, the two-layer lithium-ion cell anode member consisting of a porous layer of lithium-ion cell anode material carried on a porous copper foil, the anode material being against the opposite face of the separator layer; and a second linear stack portion comprising a first porous separator layer, a first reference electrode member, a second porous separator layer, and a second reference electrode member, the first porous separator layer of the second linear stack portion being placed against the porous copper current collector foil face of the two layer anode member, and the first and second reference electrode members each comprising a porous aluminum or porous copper current collector foil layer covered on at least one face with a reference electrode material, the reference electrode material on both reference electrodes being the same composition which is one composition selected from the group consisting of lithium iron phosphate and lithium titanate. 2. An assembled linear stack of electrochemical cell members for a lithium-ion battery as recited in claim 1 in which in the first linear stack portion each anode member copper foil current collector is non-porous and each cathode member aluminum foil current collector is non-porous. 3. An assembled linear stack of electrochemical cell members for a lithium-ion battery as recited in claim 1 in which the pore or hole opening area of the porous copper foil utilized in the two-layer lithium ion cell anode member is in the range of from about 0.01% to about 98% of the outline face area of the copper foil. 4. An assembled linear stack of electrochemical cell members for a lithium-ion battery as recited in claim 1 in which lithium iron phosphate reference electrode material is coated on one side or both sides of an aluminum current collector foil and the thickness of each coating of the lithium iron phosphate on a face of the aluminum current collector foil is in the range of 0.1 to 150 micrometers. 5. An assembled linear stack of electrochemical cell members for a lithium-ion battery as recited in claim 1 in which lithium titanate reference electrode material is coated on one side or both sides of an aluminum current collector foil and the thickness of each coating of the lithium titanate on a face of the aluminum current collector foil is in the range of 0.1 to 150 micrometers. 6. An assembled linear stack of electrochemical cell members for a lithium-ion battery as recited in claim 1 in which lithium titanate reference electrode material is coated on one side or both sides of a copper current collector foil and the thickness of each coating of the lithium titanate on a face of the copper current collector foil is in the range of 0.1 to 150 micrometers. 7. An assembled linear stack of electrochemical cell members for a lithium-ion battery as recited in claim 1 in which the pore or hole opening area of the porous aluminum current collector foil or porous copper current collector foil utilized in the two reference electrode members is the same and is in the range of from about 0.01% to about 98% percent of the outline face area of the aluminum or the copper foil. 8. An assembled linear stack of electrochemical cell members for a lithium-ion battery as recited in claim 1 in which the thicknesses of the nonporous copper foils used as anode current collectors are in the range of about six to twenty micrometers and the thicknesses of the nonporous aluminum foils used as cathode current collectors are in the range of about ten to about thirty micrometers. 9. An assembled linear stack of electrochemical cell members for a lithium-ion battery as recited in claim 1 in which the electrode members and the separator members are in the form of flat layered structures which are rectangular in shape. 10. An assembled linear stack of electrochemical cell members for a lithium-ion battery as recited in claim 1 in which the thicknesses of the coating layers of porous lithium-ion cell anode material and of porous lithium-ion cell cathode material are in the range of about ten to one hundred fifty micrometers. 11. An assembled linear stack of electrochemical cell members for a lithium-ion battery as recited in claim 9 in which the rectangular dimensions of the flat-layer anode members are larger than the rectangular dimensions of the flat-layer cathode members, and the rectangular dimensions of the separators are larger than the rectangular dimensions of the anode members. 12. An assembled linear stack of electrochemical cell members for a lithium-ion battery as recited in claim 9 in which the lengths of the sides of the rectangular layers are in the range of ten to five hundred millimeters. 13. An assembled linear stack of electrochemical cell members for a lithium-ion battery as recited in claim 1 in which the peripheral dimensions of the anode members are larger than the peripheral dimensions of the cathode members, and the peripheral dimensions of the separators are larger than the peripheral dimensions of the anode members. 14. An assembled linear stack of electrochemical cell members for a lithium-ion battery as recited in claim 1 in which each cell member is wetted with a liquid, lithium-ion containing electrolyte. 15. An assembled linear stack of electrochemical cell members for a lithium-ion battery as recited in claim 1 in which each anode member contains an electrical conductor tab on its copper foil current collector which tabs are joined as a common anode group terminal member in the assembled unit, each cathode member comprises a conductor tab on its aluminum foil current collector which tabs are joined as a common cathode group terminal member in the assembled unit, and the first and second reference electrodes each have a single conductor tab on their respective porous aluminum or copper current collector foils, such that the assembled unit presents four accessible members for electrical connection which extend from any container of the assembled unit. 16. An assembled linear stack of electrochemical cell members for a lithium-ion battery as recited in claim 1 in which the lithium iron phosphate reference electrode material is characte