Battery with reference electrode for voltage monitoring

What is claimed is: 1. A metal-ion battery structure comprising: (a) a first electrode disposed adjacent to a first current collector, wherein said first electrode supplies or accepts selected battery metal ions; (b) a second electrode, with polarity opposite of said first electrode, disposed adjacent to a second current collector, wherein said second electrode supplies or accepts said metal ions, and wherein said second current collector is porous, permeable to said metal ions, and characterized by an average pore size from about 1 nm to about 10 μm; (c) a reference electrode disposed adjacent to a third current collector, wherein said reference electrode contains said metal ions; and wherein said reference electrode has a reference-electrode projected area that is at least 20% of the projected area of said first electrode and of said second electrode; (d) a first separator interposed between said first electrode and said second electrode, to electronically isolate said first electrode from said second electrode; and (e) a second separator interposed between said second current collector and said reference electrode, to electronically isolate said second electrode from said reference electrode. 2. The battery structure of claim 1 , wherein said reference electrode is not disposed spatially between said first electrode and said second electrode. 3. The battery structure of claim 1 , wherein said reference electrode has a reference-electrode projected area that is at least 30% of the projected area of said first electrode. 4. The battery structure of claim 3 , wherein said reference electrode has a reference-electrode projected area that is at least 50% of the projected area of said first electrode. 5. The battery structure of claim 4 , wherein said reference electrode has a reference-electrode projected area that is at least 90% of the projected area of said first electrode. 6. The battery structure of claim 1 , wherein said reference electrode has a reference-electrode projected area that is at least 30% of the projected area of said second electrode. 7. The battery structure of claim 6 , wherein said reference electrode has a reference-electrode projected area that is at least 50% of the projected area of said second electrode. 8. The battery structure of claim 7 , wherein said reference electrode has a reference-electrode projected area that is at least 90% of the projected area of said second electrode. 9. The battery structure of claim 1 , wherein said metal ions are selected from the group consisting of lithium ions, sodium ions, potassium ions, magnesium ions, calcium ions, and combinations thereof. 10. The battery structure of claim 9 , wherein said metal ions are lithium ions. 11. The battery structure of claim 10 , wherein said reference electrode is fabricated from one or more materials selected from the group consisting of lithium metal, lithiated carbon, lithium-silicon alloy, lithium-aluminum alloy, lithium-tin alloy, lithium-metal oxides LiMO 2 (M=Co, Ni, Mn, or combinations thereof), lithium-metal oxides LiM 2 O 4 (M=Mn, Ti, or combinations thereof), lithium-metal oxides LiM x M′ 2-x O 4 (M, M′ =Mn or Ni), lithium-metal phosphates LiMPO 4 (M=Fe, Mn, Co, or combinations thereof), and combinations thereof. 12. The battery structure of claim 1 , wherein said second current collector is in the form of mesh, foam, grid, net, woven fiber, honeycomb, patterned holes on metal foil, perforated holes on metal foil, metallized plastic film, expanded metal grid, metal wool, micro-truss, woven carbon fabric, woven carbon mesh, non-woven carbon mesh, carbon felt, or combinations thereof. 13. The battery structure of claim 1 , wherein said second current collector is characterized by an average pore-to-surface ratio or porosity from about 0.1% to about 99.9%. 14. The battery structure of claim 13 , wherein said average pore-to-surface ratio or porosity is at least 10%. 15. The battery structure of claim 1 , wherein said second electrode is porous. 16. The battery structure of claim 1 , said battery structure further comprising an external reference circuit between said third current collector and said first current collector, wherein said external reference circuit is electrically connected to a monitor to display or record voltage of said first electrode. 17. The battery structure of claim 1 , said battery structure further comprising an external reference circuit between said third current collector and said second current collector, wherein said external reference circuit is electrically connected to a monitor to display or record voltage of said second electrode. 18. The battery structure of claim 1 , wherein said battery structure is in a layered configuration. 19. The battery structure of claim 18 , wherein said battery structure includes said reference electrode at one end of stacked layers. 20. The battery structure of claim 18 , wherein said battery structure includes said reference electrode within stacked layers. 21. The battery structure of claim 1 , wherein said battery structure is in a cylindrical or wounded prismatic configuration. 22. The battery structure of claim 21 , wherein said battery structure includes said reference electrode as an outer layer of said configuration. 23. The battery structure of claim 21 , wherein said battery structure includes said reference electrode as an inner layer of said configuration. 24. The battery structure of claim 1 , said battery structure further comprising at least one additional reference electrode. 25. The battery structure of claim 24 , wherein said additional reference electrode is not disposed spatially between said first electrode and said second electrode. 26. A metal-ion battery structure comprising: (a) a first electrode disposed adjacent to a first current collector, wherein said first electrode supplies or accepts selected battery metal ions; (b) a second electrode, with polarity opposite of said first electrode, wherein said second electrode supplies or accepts said metal ions, and wherein said second electrode is porous, free-standing, permeable to said metal ions, and characterized by an average pore size from about 1 nm to about 10 μm; (c) a reference electrode disposed adjacent to a second current collector, wherein said reference electrode contains said metal ions, and wherein said reference electrode has a reference-electrode projected area that is at least 20% of the projected area of said first electrode and of said second electrode; (d) a first separator interposed between said first electrode and said second electrode, to electronically isolate said first electrode from said second electrode; and (e) a second separator interposed between said second electrode and said reference electrode, to electronically isolate said second electrode from said reference electrode. 27. A method of monitoring electrode potential of a battery, said method comprising: (i) providing or obtaining a battery with a first electrode, a second electrode, and a reference electrode that is not spatially between said first and second electrodes, wherein said reference electrode has a reference-electrode projected area that is at least 20% of the projected area of said first electrode and of said second electrode, and wherein said second electrode is porous, permeable to selected battery metal ions, and characterized by an a