Negative electrodes for secondary lithium batteries and methods of making the same

What is claimed is: 1. A negative electrode for a secondary lithium battery, the negative electrode comprising: a negative electrode current collector having a first side and an opposite second side; a first porous negative electrode active material layer disposed on the first side of the negative electrode current collector; a second porous negative electrode active material layer disposed on the second side of the negative electrode current collector, the first porous negative electrode active material layer and the second porous negative electrode active material layer each comprising an electrochemically active material intermingled with a polymeric binder, wherein the electrochemically active material can undergo the reversible intercalation of lithium ions or can react with lithium to form a lithium-containing intermetallic compound; a lithium metal layer disposed between the first porous negative electrode active material layer and the second porous negative electrode active material layer; and an electrolyte infiltrating the first porous negative electrode active material layer and the second porous negative electrode active material layer, the electrolyte being in contact with at least a portion of a major surface of the lithium metal layer, wherein the electrolyte establishes a lithium ion transport path between the lithium metal layer and at least one of the first porous negative electrode active material layer or the second porous negative electrode active material layer. 2. The negative electrode of claim 1 wherein the negative electrode current collector includes a first porous metal layer and a second porous metal layer spaced apart from the first porous metal layer, wherein the lithium metal layer is sandwiched between confronting surfaces of the first porous metal layer and the second porous metal layer, and wherein the electrolyte is in contact with at least a portion of a first major surface and at least a portion of an opposite second major surface of the lithium metal layer. 3. The negative electrode of claim 2 wherein the first porous negative electrode active material layer is disposed on a major surface of the first porous metal layer and the second porous negative electrode active material layer is disposed on a major surface of the second porous metal layer. 4. The negative electrode of claim 1 wherein the negative electrode current collector is nonporous, a first lithium metal layer is disposed on the first side of the negative electrode current collector, a second lithium metal layer is disposed on the second side of the negative electrode current collector, the first porous negative electrode active material layer is disposed on the first side of the negative electrode current collector over the first lithium metal layer, and the second porous negative electrode active material layer is disposed on the second side of the negative electrode current collector over the second lithium metal layer. 5. The negative electrode of claim 4 wherein the first and second lithium metal layers are nonporous. 6. The negative electrode of claim 1 wherein the negative electrode current collector is porous and includes a plurality of through-holes extending from the first side to the second side thereof, and wherein at least a portion of the first porous negative electrode active material layer or the second porous negative electrode active material layer extends at least part-way into the plurality of through-holes in the negative electrode current collector. 7. The negative electrode of claim 1 wherein at least one of the first porous negative electrode active material layer or the second porous negative electrode active material layer includes a silicon-based electrochemically active material. 8. The negative electrode of claim 1 wherein the lithium metal layer is nonporous and has a thickness in a range of 20 micrometers to 40 micrometers. 9. A secondary lithium battery comprising: a positive electrode including a porous positive electrode active material layer electrically coupled to a positive electrode current collector; a double-sided negative electrode including: a negative electrode current collector having a first side and an opposite second side; a first porous negative electrode active material layer disposed on the first side of the negative electrode current collector; a second porous negative electrode active material layer disposed on the second side of the negative electrode current collector, the first porous negative electrode active material layer and the second porous negative electrode active material layer each comprising an electrochemically active material intermingled with a polymeric binder, wherein the electrochemically active material can undergo the reversible intercalation of lithium ions or can react with lithium to form a lithium-containing intermetallic compound; and a lithium metal layer disposed between the first porous negative electrode active material layer and the second porous negative electrode active material layer; a porous separator layer disposed between the porous positive electrode active material layer of the positive electrode and the first or second porous negative electrode active material layer of the negative electrode, the porous separator layer electrically isolating the porous positive electrode active material layer of the positive electrode from the first or second porous negative electrode active material layer of the negative electrode; and an electrolyte infiltrating the porous separator layer, the porous positive electrode active material layer of the positive electrode, the first porous negative electrode active material layer of the negative electrode, and the second porous negative electrode active material layer of the negative electrode, wherein the electrolyte is in contact with at least a portion of a major surface of the lithium metal layer, and wherein the electrolyte establishes a lithium ion transport path between the lithium metal layer and at least one of the first porous negative electrode active material layer or the second porous negative electrode active material layer. 10. The battery of claim 9 wherein the lithium metal layer is nonporous, and wherein, prior to initial charging or cycling of the battery, the lithium metal layer does not create a physical barrier to the transport of lithium ions between the porous positive electrode active material layer of the positive electrode and the first or second porous negative electrode active material layer of the negative electrode. 11. The battery of claim 9 wherein the negative electrode current collector includes a first porous metal layer and a second porous metal layer spaced apart from the first porous metal layer, wherein the lithium metal layer is sandwiched between confronting surfaces of the first porous metal layer and the second porous metal layer, and wherein the electrolyte is in contact with at least a portion of a first major surface and at least a portion of an opposite second major surface of the lithium metal layer. 12. The battery of claim 9 wherein the negative electrode current collector is nonporous, a first nonporous lithium metal layer is disposed on the first side of the negative electrode current collector, a second nonporous lithium metal layer is disposed on the second side of the negative electrode current collector, the first porous negative electrode active material layer is disposed on the first side of the negative electrode current collector over the first nonporous lithium metal layer, and the second porous negative electrode active material layer is disposed on the second side of the negative e