Hybrid lithium anode electrode layer and lithium-ion battery containing same

1 . A lithium-ion battery comprising a cathode, an anode, an electrolyte in ionic contact with both the cathode and the anode, and an optional separator disposed between the cathode and the anode, wherein, prior to said battery being assembled, the anode comprises (a) an anode active material layer composed of fine particles of a first anode active material having an average size from 1 nm to 10 μm, an optional conductive additive, and an optional binder that bonds said fine particles and said conductive additive together to form said anode active material layer of structural integrity and (b) a layer of lithium metal or lithium metal alloy having greater than 50% by weight of lithium therein, wherein said layer of lithium metal or lithium metal alloy is in physical contact with said anode active material layer and provides from 1% to 120% of a required lithium storage capacity of said anode layer. 2 . The battery of claim 1 , wherein lithium ions or atoms from said lithium metal or lithium metal alloy diffuse into said first anode active material particles to form lithiated anode particles after said battery is assembled and said anode is brought into contact with said electrolyte. 3 . The battery of claim 1 , wherein said anode active material layer or the layer of lithium metal or lithium metal alloy further contains an amount of electrolyte. 4 . The battery of claim 1 , wherein said first anode active material particles have an average particle size from 1 nm to 1 μm. 5 . The battery of claim 1 , wherein first anode active material particles have an average particle size from 1 nm to 100 nm. 6 . The battery of claim 1 , wherein said first anode active material is selected from the group consisting of: (a) silicon (Si), germanium (Ge), tin (Sn), lead (Pb), antimony (Sb), bismuth (Bi), zinc (Zn), aluminum (Al), and cadmium (Cd); (b) alloys or intermetallic compounds of Si, Ge, Sn, Pb, Sb, Bi, Zn, Al, or Cd with other elements, wherein said alloys or compounds are stoichiometric or non-stoichiometric; (c) oxides, carbides, nitrides, sulfides, phosphides, selenides, and tellurides of Si, Ge, Sn, Pb, Sb, Bi, Zn, Al, Fe, or Cd, and their mixtures or composites; and (d) combinations thereof. 7 . The battery of claim 2 , wherein said lithiated anode particles comprise a lithiated silicon having a chemical formula of Li 4 Si, Li 4.4 Si, or Li x Si, wherein 0.02≤x≤4.4. 8 . The battery of claim 1 , wherein said anode active material comprises a doped semiconductor material selected from Si or Ge doped with n-type and/or p-type dopants. 9 . The battery of claim 1 , wherein said anode active material layer contains a binder that is porous having a porosity level from 1% to 90%. 10 . The battery of claim 1 , wherein said anode active material layer is porous having a porosity level from 1% to 50%. 11 . The battery of claim 1 , wherein said anode active material layer contains a binder that is an elastomer having a recoverable tensile elastic deformation from 2% to 700%. 12 . The battery of claim 1 , wherein said anode further comprises an amorphous carbon or polymeric carbon that forms a coating on a surface of said fine particles or forms a matrix in which said fine particles are dispersed. 13 . The battery of claim 12 , wherein said carbon coating has a thickness less than 1 μm. 14 . The battery of claim 12 , wherein said carbon is obtained from pyrolization of a polymer, pitch, or organic precursor, or obtained by chemical vapor deposition. 15 . The battery of claim 1 , wherein said anode further comprises a protective material that forms a coating on a surface of said fine particles or forms a matrix in which said fine particles are dispersed. 16 . The battery of claim 15 , wherein said protective material is selected from graphene, an electron-conducting polymer, an ion-conducting polymer, a carbon coating, or a combination thereof. 17 . The battery of claim 1 , wherein said anode further comprises a desired amount of a second anode active material selected from particles of graphite, hard carbon, soft carbon, meso-carbon micro-bead, surface-modified graphite, carbon-coated graphite, or a combination thereof. 18 . The battery of claim 1 , wherein said anode comprises a conductive additive selected from the group consisting of carbon black, electro-spun nanofibers, carbonized electro-spun nanofibers, vapor-grown carbon or graphite nanofibers, carbon or graphite whiskers, carbon nanotubes, nanoscaled graphene platelets, metal nanowires, metal-coated nanowires, carbon-coated nanowires, metal-coated nanofibers, carbon-coated nanofibers, and combinations thereof. 19 . The battery of claim 1 , wherein said cathode does not contain a full capacity of lithium initially when the battery is assembled. 20 . The battery of claim 1 , wherein said cathode does not contain lithium initially when the battery is assembled. 21 . The battery of claim 1 , wherein said anode active layer is supported by or bonded to an anode current collector. 22 . The battery of claim 1 , wherein said electrolyte is selected from organic liquid electrolyte, ionic liquid electrolyte, gel electrolyte, polymer electrolyte, solid-state electrolyte, or a combination thereof. 23 . An anode electrode layer for a lithium-ion battery, said anode electrode layer comprising (a) an anode active material layer composed of fine particles of a first anode active material having an average size from 1 nm to 10 μm, an optional conductive additive, and an optional binder that bonds said fine particles and said conductive additive together to form said anode active material layer of structural integrity and (b) a layer of lithium metal or lithium metal alloy having greater than 50% by weight of lithium therein, wherein said layer of lithium metal or lithium metal alloy is in physical contact with said anode active material layer. 24 . The anode electrode layer of claim 23 , further comprising an anode current collector wherein said anode active layer is supported by or bonded to said anode current collector. 25 . The anode electrode layer of claim 23 , wherein said anode active layer or the layer of lithium metal or lithium metal alloy further contains an amount of electrolyte or lithium ion-conducting liquid. 26 . The anode electrode layer of claim 25 , wherein said electrolyte is selected from organic liquid electrolyte, ionic liquid electrolyte, gel electrolyte, polymer electrolyte, solid-state electrolyte, or a combination thereof. 27 . The anode electrode layer of claim 23 , further comprising a protective film that covers said layer of lithium metal or lithium metal alloy. 28 . The anode electrode layer of claim 23 , wherein said first anode active material particles have an average particle size from 1 nm to 1 μm. 29 . The anode electrode layer of claim 23 , wherein first anode active material particles have an average particle size from 1 nm to 100 nm. 30 . The anode electrode layer of claim 23 , wherein said first anode active material is selected from the group consisting of: (a) silicon (Si), germanium (Ge), tin (Sn), lead (Pb), antimony (Sb), bismuth (Bi), zinc (Zn), aluminum (Al), and cadmium (Cd); (b) alloys or intermetallic compounds of Si, Ge, Sn, Pb, Sb, Bi, Zn, Al, or Cd with other elements, wherein said alloys or compounds are stoichiom