System for Roll-to-Roll Electrocoating of Battery Electrode Coatings onto a Foil Substrate

We claim: 1 . A coating system for electrodepositing a battery electrode coating onto a foil substrate, the system comprising: a tank structured and arranged to hold an electrodepositable coating composition; a feed roller positioned outside of the tank structured and arranged to feed the foil into the tank; at least one counter electrode positioned inside the tank, the counter electrode in electrical communication with the foil during operation of the system to thereby deposit the battery electrode coating onto the foil; and an in-line foil drier positioned outside the tank structured and arranged to receive the coated foil from the tank. 2 . The coating system of claim 1 , wherein the in-line foil drier comprises an in-line source of thermal energy, an in-line source of radiation, an in-line gas flow means, or a combination thereof. 3 . The coating system of claim 1 , wherein the in-line foil drier comprises an in-line oven positioned outside of the tank structured and arranged to receive the coated foil from the tank. 4 . The coating system of claim 3 , wherein the in-line oven comprises an in-line thermal oven, an in-line microwave oven, an in-line infrared oven, an in-line UV oven, or a combination thereof. 5 . The coating system of claim 1 , wherein the in-line foil drier comprises an in-line gas flow means, and the gas flow from the in-line gas flow means comprises a nitrogen flow or an air flow. 6 . The coating system of claim 1 , further comprising a rinsing system positioned outside the tank that provides a rinse of the foil substrate after exiting the tank and prior to entering the in-line foil drier. 7 . The coating system of claim 1 , further comprising at least one internal roller positioned inside the tank, the internal roller structured and arranged to receive the foil substrate from the feed roller and direct the foil substrate past the counter electrode. 8 . The coating system of claim 1 , wherein the in-line foil drier is positioned vertically above the tank. 9 . The coating system of claim 1 , wherein the tank comprises a coated foil exit aperture and the coated foil substrate exits the tank through the coated foil exit aperture. 10 . The coating system of claim 9 , wherein the coated foil exit aperture is structured and arranged to be located below the fill level of the electrodepositable coating composition held by the tank. 11 . The coating system of claim 9 , further comprising a catch basin located below the tank structured and arranged to receive the electrodepositable coating composition exiting the tank through the coated foil exit aperture. 12 . The coating system of claim 11 , further comprising a recirculating conduit for transferring the electrodepositable coating composition from the catch basin into the tank. 13 . The coating system of claim 9 , further comprising a foil substrate entry aperture and the foil substrate enters the tank through the foil substrate entry aperture. 14 . The coating system of claim 9 , wherein the in-line foil drier is positioned horizontally next to the tank. 15 . The coating system of claim 1 , further comprising compression rollers that press the coated foil substrate after it exits the in-line foil drier. 16 . The coating system of claim 15 , further comprising an in-line finishing oven that receives the pressed coated foil after it exits the compression rollers. 17 . The coating system of claim 16 , further comprising at least one end roller positioned outside the tank for receiving the coated foil substrate after it passes through the in-line finishing oven. 18 . A method for electrocoating a foil substrate using the coating system according to claim 1 , the method comprising: providing a foil substrate onto the feed roller; feeding the foil substrate into the tank past the counter electrode positioned inside the tank, wherein a surface of the foil substrate to be coated is submerged in the electrodepositable coating composition held in the tank; electrically coupling the counter electrode and the foil substrate to opposite poles of a power source; applying an electrical current from the power source to electrodeposit a coating from the electrodepositable coating composition onto the surface of the foil substrate; and then passing the coated foil substrate through the in-line foil drier to at least partially dry the coated foil substrate. 19 . The method of claim 18 , wherein the method further comprises passing the foil substrate between compression rollers after the foil substrate is passed through the in-line foil drier, and compressing the coated foil substrate by the compression rollers after the foil substrate is at least partially dried in the in-line foil drier. 20 . The method of claim 19 , wherein the method further comprises passing the foil through an in-line finishing oven after the foil substrate is passed through the compression rollers, and heating the coated foil substrate in the in-line finishing oven after the foil substrate is compressed by the compression rollers. 21 . The method of claim 18 , wherein the foil substrate is continuously fed through the coating system. 22 . A foil substrate coated by the method according to claim 18 . 23 . An electrical storage device comprising: (a) an electrode comprising the coated foil substrate of claim 22 ; (b) a counter-electrode, and (c) an electrolyte. 24 . The electrical storage device of claim 23 , wherein the electrical storage device comprises a cell. 25 . The electrical storage device of claim 23 , wherein the electrical storage device comprises a battery pack. 26 . The electrical storage device of claim 23 , wherein the electrical storage device comprises a secondary battery. 27 . The electrical storage device of claim 23 , wherein the electrical storage device comprises a capacitor. 28 . The electrical storage device of claim 23 , wherein the electrical storage device comprises a supercapacitor.