Passivated current collector for a battery cell

What is claimed is: 1 . A battery cell, comprising: a first electrode comprising a first region that is coated with an active material and a second region comprising a first side and a second side that both lack a coating of the active material; a first terminal; and a first current collector comprising a portion of an outer surface onto which a layer of a passivating material is applied to form: a first passivated portion electrically coupling the first current collector with the first side of the second region along a first axis for which both the first current collector and the second region span; and a second passivated portion electrically coupled with the second side of the second region along the first axis, wherein the second region of the first electrode and the first terminal are electrically coupled via the first passivated portion, and wherein the first passivated portion and the second passivated portion are exposed to an electrolyte in contact with the first electrode; wherein the second region and the layer of the passivating material extend away from the first terminal. 2 . The battery cell of claim 1 , wherein the first electrode is an anode of the battery cell, and the first terminal is an anode terminal of the battery cell. 3 . The battery cell of claim 2 , wherein the battery cell is a prismatic battery cell comprising: the first current collector comprising aluminum; and the electrolyte comprising lithium ions, wherein the first passivated portion and the second passivated portion reduce reactions between the electrolyte and the aluminum of the first current collector. 4 . The battery cell of claim 2 , comprising: the first current collector comprising aluminum; and a second electrode comprising a second current collector electrically coupled to a second terminal, wherein the second electrode is a cathode comprising an aluminum foil coated with a cathode active material. 5 . The battery cell of claim 1 , wherein the first passivated portion or the second passivated portion comprises material different from aluminum and the electrolyte comprises lithium ions. 6 . The battery cell of claim 1 , comprising: the first passivated portion or the second passivated portion comprising at least one of copper or nickel. 7 . The battery cell of claim 1 , comprising: the first passivated portion or the second passivated portion comprising at least one of polymer or ceramic. 8 . The battery cell of claim 1 , comprising: the first current collector comprising aluminum; and the first passivated portion or the second passivated portion comprising material that does not react with the electrolyte. 9 . The battery cell of claim 1 , comprising: the first terminal comprising an aluminum rivet inserted through an insulator layer and through a gasket that is disposed between the first terminal and a cap plate. 10 . The battery cell of claim 1 , comprising: the first current collector welded to the first terminal, wherein the first current collector and the first terminal comprise aluminum, and the first electrode is an anode. 11 . The battery cell of claim 1 , comprising: a terminal plate welded to the first terminal; and a gasket that interfaces with a cap plate and an insulator. 12 . The battery cell of claim 1 , wherein the first electrode comprises a plurality of metal foils, wherein each of the plurality of metal foils have first regions coated with the active material and second regions lacking an active material coating. 13 . The battery cell of claim 1 , wherein the first region includes an electrode active material, a binder and a conductive carbon. 14 . The battery cell of claim 1 , wherein the second region includes a notched current collector foil. 15 . A method, comprising: providing a first electrode of a battery cell comprising a first region that is coated with an active material and a second region comprising a first side and a second side that both lack a coating of the active material; providing a first terminal; electrically coupling the first side of the second region of the first electrode with a first passivated portion of a first current collector along a first axis for which both the first current collector and the second region span; electrically coupling the second side of the second region with a second passivated portion of the first current collector along the first axis; and exposing the first passivated portion and the second passivated portion to an electrolyte in contact with the first electrode; wherein the second region and a layer of a passivating material extend away from the first terminal. 16 . The method of claim 15 , wherein the battery cell is a lithium ion prismatic battery cell, the first electrode is an anode, the first terminal is an anode terminal, the first current collector comprises aluminum, and the electrolyte comprises lithium ions. 17 . The method of claim 15 , wherein the first passivated portion or the second passivated portion comprises at least one of copper, nickel, polymer or ceramic. 18 . The method of claim 15 , wherein the first electrode is an anode, and the method comprises: providing a second electrode comprising a second current collector electrically coupled to a second terminal, wherein the second electrode is a cathode comprising aluminum; and exposing a portion of the second current collector to the electrolyte in contact with the second electrode. 19 . An electric vehicle, comprising: a battery cell comprising: an anode comprising a first region that is coated with an active material and a second region comprising a first side and a second side that both lack a coating of the active material; a first terminal; a first current collector comprising aluminum and a portion of an outer surface onto which a layer of a passivating material is applied to form: a first passivated portion electrically coupling the first current collector with the first side of the second region along a first axis for which both the first current collector and the second region span; and a second passivated portion electrically coupled with the second side of the second region along the first axis, wherein the second region of a first electrode and the first terminal are electrically coupled via the first passivated portion, and wherein the first passivated portion and the second passivated portion are exposed to an electrolyte in contact with the anode; wherein the second region and the layer of the passivating material extend away from the first terminal; a cathode; and a second current collector of the cathode exposed to the electrolyte and coupled to a second terminal, wherein the cathode comprises aluminum. 20 . The electric vehicle of claim 19 , comprising: the electrolyte comprising lithium ions, wherein the first passivated portion and the second passivated portion reduce reactions between the electrolyte and the aluminum of the first current collector; and the first passivated portion or the second passivated portion comprising a coating on the first current collector, the coating comprising at least one of: copper, nickel, polymer or ceramic.