High capacity electrode materials for batteries and process for their manufacture

Specific embodiments of the invention in which an exclusive property or privilege is covered are defined as follows: 1 . A nanostructured metal oxide electrode for use in a sodium-ion battery, the electrode comprising a nanostructured film of bilayered V 2 O 5 on a metal foil substrate. 2 . The electrode of claim 1 , wherein the bilayered V 2 O 5 is amorphous and the layers thereof have an interlayer spacing of greater than about 12 Å. 3 . The electrode of claim 2 , wherein the bilayered V 2 O 5 is produced by electrochemical deposition from a VO 2+ salt solution onto the metal foil substrate, and drying the deposited film to remove water therefrom. 4 . The electrode of claim 1 , wherein the bilayered V 2 O 5 comprises nanostructured crystalline bilayered V 2 O 5 produced by electrochemical deposition from a VO 2+ salt solution onto the metal foil substrate to form an amorphous bilayered V 2 O 5 film, drying the film, and then charging and discharging the dried film in an electrochemical cell from a high voltage in the range of about 3.3 to 3.8 V, to a low voltage in the range of about 1.4 to 1.6 V, over a period of about 1/30 of an hour or less. 5 . The electrode of claim 1 , wherein the substrate comprises nickel or stainless steel. 6 . A sodium-ion electrochemical cell comprising a cathode, an anode and a nonaqueous sodium-containing electrolyte therebetween, wherein the anode comprises the electrode of claim 1 . 7 . A sodium-ion battery comprising a plurality of electrochemically linked electrochemical cells of claim 6 . 8 . A sodium-ion electrochemical cell comprising a cathode, an anode and a nonaqueous sodium-containing electrolyte therebetween, wherein the anode comprises the nanostructured vanadium oxide electrode of claim 2 . 9 . A sodium-ion battery comprising a plurality of electrochemically linked electrochemical cells of claim 8 . 10 . A sodium-ion electrochemical cell comprising a cathode, an anode and a nonaqueous sodium-containing electrolyte therebetween, wherein the anode comprises the nanostructured vanadium oxide electrode of claim 4 . 11 . A sodium-ion battery comprising a plurality of electrochemically linked electrochemical cells of claim 10 . 12 . A sodium-ion electrochemical cell comprising a cathode, an anode and a nonaqueous sodium-containing electrolyte therebetween, wherein the anode comprises a film of densely packed amorphous TiO 2 nanotubes on a surface of a metal foil substrate; and wherein the densely packed nanotubes have a wall thickness of about 18 to 25 nm and an outer tubular diameter of about 100 to 150 nm. 13 . The sodium-ion electrochemical cell of claim 12 , wherein the substrate is a titanium foil. 14 . The sodium-ion electrochemical cell of claim 12 , wherein the densely packed TiO 2 nanotubes are oriented perpendicular to the surface of the metal foil substrate. 15 . The sodium-ion electrochemical cell of claim 12 , wherein the substrate is a titanium foil, and the densely packed amorphous TiO 2 nanotubes are produced by electrochemical anodization of a surface of the titanium foil, and subsequently drying the film to remove water therefrom. 16 . The sodium-ion electrochemical cell of claim 15 , wherein the densely packed TiO 2 nanotubes are oriented perpendicular to the surface of the substrate. 17 . A sodium-ion battery comprising a plurality of electrochemically linked electrochemical cells of claim 12 . 18 . A sodium-ion battery comprising a plurality of electrochemically linked electrochemical cells of claim 14 . 19 . A sodium-ion battery comprising a plurality of electrochemically linked electrochemical cells of claim 15 . 20 . A sodium-ion battery comprising a plurality of electrochemically linked electrochemical cells of claim 16 .