Three-dimensional batteries and methods of manufacturing the same

1 - 32 . (canceled) 32 . A process for preparing a three-dimensional non-aqueous battery, comprising: forming a plurality of anode backbone structures and a plurality cathode backbone structures on a surface of a first structural layer, wherein each of the anode backbone structures and the cathode backbone structures comprises silicon, is connected to the surface of the first structural layer, and protrudes at least 50 microns from the surface of the first structural layer, forming a plurality of anodes on the anode backbone structures, forming a plurality of cathodes on the cathode backbone structures, the cathodes being separated from the anodes by gaps, and depositing a porous separator material in the gaps between the anodes and the cathodes. 33 . The process of claim 32 wherein the porous separator material is deposited by electrophoretic deposition. 34 . The process of claim 32 wherein the plurality of cathodes are formed by electrophoretically depositing a cathode material on the plurality of cathodes. 35 . The process of claim 32 wherein the anode and cathode backbone structures comprise fins protruding at least 50 microns from the surface of the first structural layer. 36 . The process of claim 32 wherein the anode and cathode backbone structures comprise fins protruding at least 50 microns from the surface of the first structural layer and having a thickness less than 20 microns. 37 . The process of claim 32 wherein the anode and cathode backbone structures comprise pillars protruding at least 50 microns from the surface of the first structural layer. 38 . The process of claim 32 wherein the anode and cathode backbone structures comprise cylindrical pillars protruding at least 50 microns from the surface of the first structural layer. 39 . The process of claim 32 , wherein forming the anodes comprises depositing a layer of an anodically active material onto the outer surface of the anode backbone structures. 40 . The process of claim 32 , wherein forming the cathodes comprises depositing a layer of a cathodically active material onto the outer surface of the cathode backbone structures. 41 . The process of claim 32 wherein the anode and cathode backbone structures have an aspect ratio of approximately 2.5:1 to 500:1. 42 . The process of claim 32 wherein each of the anodes is associated a current collector to form a non-planar active battery component. 43 . The process of claim 32 wherein each of the cathodes is associated a current collector to form a non-planar active battery component. 44 . The process of claim 32 wherein each of the anodes has a thickness of 5 to 200 μM. 45 . The process of claim 32 wherein each of the anodes has a thickness of 10 to 150 μM. 46 . The process of claim 32 wherein each of the cathodes has a thickness of 5 to 200 μM. 47 . The process of claim 32 wherein each of the cathodes has a thickness of 10 to 150 μM. 48 . The process of claim 32 wherein each of the anodes and the cathodes has a thickness of 10 to 150 μM and the first cathode has a thickness of 10 to 150 μM.