Molten air rechargeable batteries

1 - 41 . (canceled) 42 . A rechargeable battery cell comprising: a. a rechargeable air electrode; b. a rechargeable metal electrode that is capable of being oxidized; and c. a molten electrolyte disposed between the air electrode and the metal electrode; wherein at the air electrode, the principal reaction is oxygen (O 2 ) being reduced during discharge, the principal reaction is not carbon dioxide (CO 2 ) and oxygen (O 2 ) being reduced to form carbonate (CO 3 2− ) during discharge, and wherein the molten electrolyte comprises one or more metal carbonates, wherein external carbon dioxide (CO 2 ) is not required for discharge at the air electrode. 43 . A rechargeable battery cell comprising: a. a rechargeable air electrode; b. a rechargeable metal electrode that is capable of being oxidized; and c. a molten electrolyte disposed between the air electrode and the metal electrode; wherein at the air electrode, the principal reaction is oxygen (O 2 ) being reduced during discharge, the principal reaction is not carbon dioxide (CO 2 ) and oxygen (O 2 ) being reduced to form carbonate (CO 3 2− ) during discharge, and wherein the molten electrolyte comprises vanadium oxide (V 2 0 5 ), boron oxide (B 2 O 3 ), lithium oxide (LiO 2 ) and calcium oxide (CaO). 44 . The rechargeable battery cell according to claim 42 , wherein the melting point of the molten electrolyte is (i) between about 395° C. and about 900° C. (ii) between about 600° C. and about 900° C., (iii) between about 600° C. and about 900° C., (iv) between about 720° C. and about 900° C., (v) between about 700° C. and about 800° C., or (vi) between about 150° C. and about 500° C. 45 . The rechargeable battery cell according to claim 43 , wherein the melting point of the molten electrolyte is (i) between about 395° C. and about 900° C. (ii) between about 600° C. and about 900° C., (iii) between about 600° C. and about 900° C., (iv) between about 720° C. and about 900° C., (v) between about 700° C. and about 800° C., or (vi) between about 150° C. and about 500° C. 46 . The rechargeable battery cell according to claim 42 , wherein the melting point of the molten electrolyte is about 395° C., about 500° C., about 600° C., about 700° C., or about 723° C. 47 . The rechargeable battery cell according to claim 43 , wherein the melting point of the molten electrolyte is about 395° C., about 500° C., about 600° C., about 700° C., or about 723° C. 48 . The rechargeable battery cell according to claim 42 , wherein the melting point of the molten electrolyte is between about 395° C. and about 600° C. 49 . The rechargeable battery cell according to claim 43 , wherein the melting point of the molten electrolyte is between about 395° C. and about 600° C. 50 . The rechargeable battery cell according to claim 42 , wherein the cell operates at a temperature between about 395° C. and about 600° C. 51 . The rechargeable battery cell according to claim 43 , wherein the cell operates at a temperature between about 395° C. and about 600° C. 52 . The rechargeable battery cell according to claim 42 , wherein the one or more metal carbonates are selected from lithium carbonate, sodium carbonate, potassium carbonate, strontium carbonate, rubidium carbonate, cesium carbonate, barium carbonate, calcium carbonate, or any combination thereof. 53 . The rechargeable battery cell according to claim 42 , wherein the one or more metal carbonates are selected from lithium carbonate, sodium carbonate, potassium carbonate, or any combination thereof. 54 . The rechargeable battery cell according claim 42 , wherein the one or more metal carbonates comprises lithium carbonate. 55 . The rechargeable battery cell according to claim 42 , wherein the one or more metal carbonates comprise a binary mixture of lithium carbonate, potassium carbonate or sodium carbonate. 56 . The rechargeable battery cell according to claim 42 , wherein the one or more metal carbonates is Li 0.7 Na 0.9 CO 3 . 57 . The rechargeable battery cell according to claim 42 , wherein the one or more metal carbonates comprises lithium carbonate, sodium carbonate and potassium carbonate. 58 . The rechargeable battery cell according to claim 57 , wherein the one or more metal carbonates is Li 0.9 Na 0.6 K 0.5 CO 3 . 59 . The rechargeable battery cell according to claim 42 , wherein the one or more metal carbonates comprises CaCO 3 , Na 2 CO 3 , K 2 CO 3 , or any combination thereof. 60 . The rechargeable battery cell according to claim 59 , wherein the one or more metal carbonates are selected from Ca 0.3 Na 0.7 K 0.7 CO 3 , Ca 0.3 Na 0.7 K 0.8 CO 3 or Ca 0.2 Na 1.0 K 0.7 CO 3 . 61 . The rechargeable battery cell according to claim 42 , wherein the molten electrolyte further comprises one or more alkali metal hydroxides, alkali earth metal hydroxides, alkali metal hydroxide eutectics, alkali earth metal hydroxide eutectics, or any combination thereof. 62 . The rechargeable battery cell according to claim 43 , wherein the molten electrolyte further comprises one or more alkali metal hydroxides, alkali earth metal hydroxides, alkali metal hydroxide eutectics, alkali earth metal hydroxide eutectics, or any combination thereof. 63 . The rechargeable battery cell according to claim 61 , wherein the molten electrolyte further comprises NaOH, LiOH, KOH, Na 2 CO 3 , Li 2 CO 3 , K 2 CO 3 , or any combination thereof. 64 . The rechargeable battery cell according to claim 62 , wherein the molten electrolyte further comprises NaOH, LiOH, KOH, Na 2 CO 3 , Li 2 CO 3 , K 2 CO 3 , or any combination thereof. 65 . The rechargeable battery cell according to claim 61 , wherein the cell operates at a temperature between about 150° C. and about 500° C. 66 . The rechargeable battery cell according to claim 62 , wherein the cell operates at a temperature between about 150° C. and about 500° C. 67 . The rechargeable battery cell according to claim 42 , wherein the molten electrolyte further comprises a molten nonconductive salt and an inorganic salt that is conductive when dissolved. 68 . The rechargeable battery cell according to claim 43 , wherein the molten electrolyte further comprises a molten nonconductive salt and an inorganic salt that is conductive when dissolved. 69 . The rechargeable battery cell according to claim 67 , wherein the conductive when dissolved inorganic salt is selected from metal oxides, metal halides, metal sulfates, metal nitrates, metal halates, or any combination thereof. 70 . The rechargeable battery cell according to claim 68 , wherein the conductive when dissolved inorganic salt is selected from metal oxides, metal halides, metal sulfates, metal nitrates, metal halates, or any combination thereof. 71 . The rechargeable battery cell according to claim 67 , wherein the conductive when dissolved inorganic salt is selected from alkali metal oxides, alkali earth metal oxides, alkali metal halides, alkali earth metal halides, alkali metal sulfates, alkali earth metal sulfates, alkali metal nitrates, alkali earth metal nitrates, alkali metal halates, alkali earth metal halates, or any combination thereof. 72 . The rechargeable battery cell according to claim 68 , wherein the conductive when dissolved inorganic salt is s