Electrolyte or electrode additives for increasing metal content in metal-ion batteries

What is claimed is: 1 . A Li-ion battery comprising: an anode electrically connected to an anode current collector; a cathode electrically connected to a cathode current collector; a separator interposed between the anode and the cathode; and an electrolyte ionically coupling the anode and the cathode, wherein an anode composition of the anode comprises silicon (Si), wherein an electrolyte composition of the electrolyte comprises LiPF 6 salt, wherein a cathode composition of the cathode comprises (i) active Li-comprising cathode material selected from lithium cobalt oxide, lithium nickel cobalt aluminum oxide (NCA), lithium nickel cobalt manganese oxide (NCM), or a lithium metal oxy-fluoride and (ii) a high capacity Li-comprising cathode additive, and wherein the high capacity Li-comprising cathode additive exhibits at least about 10% higher volumetric capacity than the active Li-comprising cathode material. 2 . The Li-ion battery of claim 1 , wherein the anode composition further comprises graphite. 3 . The Li-ion battery of claim 1 , wherein the anode composition exhibits first cycle losses in a range from about 4% to about 45%. 4 . The Li-ion battery of claim 3 , wherein the first cycle losses are in a range from about 4% to about 20%. 5 . The Li-ion battery of claim 4 , wherein the first cycle losses are in a range from about 4% to about 15%. 6 . The Li-ion battery of claim 1 , wherein the electrolyte composition further comprises one or more carbonate solvents. 7 . The Li-ion battery of claim 6 , wherein the one or more carbonate solvents comprise fluoroethylene carbonate (FEC). 8 . The Li-ion battery of claim 6 , wherein the one or more carbonate solvents comprise vinylene carbonate (VC) or vinyl ethylene carbonate (VEC). 9 . The Li-ion battery of claim 1 , wherein the electrolyte composition further comprises one or more esters. 10 . The Li-ion battery of claim 1 , wherein the electrolyte composition further comprises one or more nitriles. 11 . The Li-ion battery of claim 1 , wherein the electrolyte composition further comprises one or more sulfites. 12 . The Li-ion battery of claim 11 , wherein the one or more sulfites comprise fluoroethylene sulfite. 13 . The Li-ion battery of claim 1 , wherein the electrolyte composition further comprises a LiC 2 NO 4 F 6 S 2 . 14 . The Li-ion battery of claim 1 , wherein the high capacity Li-comprising cathode additive is uniformly distributed within the cathode. 15 . The Li-ion battery of claim 1 , wherein the high capacity Li-comprising cathode additive is located at least in a surface layer of the cathode. 16 . The Li-ion battery of claim 1 , wherein at least some of the high capacity Li-comprising cathode additive is comprised in an interlayer between a cathode current collector foil and the cathode. 17 . The Li-ion battery of claim 1 , wherein the high capacity Li-comprising cathode additive is in direct contact with an electrically conductive material. 18 . The Li-ion battery of claim 17 , wherein the electrically conductive material comprises carbon. 19 . The Li-ion battery of claim 17 , wherein the electrically conductive material is arranged as a shell layer or a coating of the high capacity Li-comprising cathode additive. 20 . The Li-ion battery of claim 1 , wherein the high capacity Li-comprising cathode additive comprises a metal oxide. 21 . The Li-ion battery of claim 20 , wherein the metal oxide comprises vanadium. 22 . The Li-ion battery of claim 21 , wherein the metal oxide comprises a lithium vanadium oxide. 23 . The Li-ion battery of claim 22 , wherein the lithium vanadium oxide is Li 2 V 2 O 5 or Li 3 V 2 O 5 . 24 . The Li-ion battery of claim 20 , wherein the metal oxide comprises Li 2 O. 25 . The Li-ion battery of claim 24 , wherein the Li 2 O is in direct contact with a catalyst material particle that decreases Li extraction potential of the Li 2 O. 26 . The Li-ion battery of claim 20 , wherein the metal oxide comprises iron. 27 . The Li-ion battery of claim 26 , wherein at least some of the iron is present in a 3+ oxidation state. 28 . The Li-ion battery of claim 26 , wherein the metal oxide is a lithium iron oxide. 29 . The Li-ion battery of claim 20 , wherein the metal oxide is a reaction product of Li 2 O and an amphoteric compound. 30 . The Li-ion battery of claim 29 , wherein the amphoteric compound is another metal oxide. 31 . The Li-ion battery of claim 1 , wherein the high capacity Li-comprising cathode additive comprises a Li salt of an organic acid. 32 . The Li-ion battery of claim 31 , wherein the organic acid comprises more than one carboxylic group. 33 . The Li-ion battery of claim 32 , wherein the organic acid comprises oxalic acid or citric acid.