High efficiency iron electrode and additives for use in rechargeable iron-based batteries

1 .- 29 . (canceled) 30 . A nickel-iron rechargeable battery comprising a. an iron electrode comprising carbonyl iron, a polymeric binder and bismuth sulfide, wherein bismuth sulfide is present in an amount from 5 to 10 w/w % of the weight of the iron electrode; b. a nickel electrode spaced from the iron electrode; and c. an alkaline electrolyte in contact with the iron electrode and the nickel electrode. 31 . The nickel-iron rechargeable battery of claim 30 , wherein during cycling the battery the iron electrode comprises bismuth and iron sulfide. 32 . The nickel-iron rechargeable battery of claim 30 , wherein the polymeric binder is present in an amount from 5 to 30 w/w % of the weight of the iron electrode. 33 . The nickel-iron rechargeable battery of claim 30 , wherein the iron electrode is porous. 34 . The nickel-iron rechargeable battery of claim 30 , wherein the alkaline electrolyte comprises KOH. 35 . A nickel-iron rechargeable battery comprising a. an iron electrode comprising carbonyl iron, a polymeric binder, a bismuth oxide additive and a bismuth sulfide additive; b. a nickel electrode spaced from the iron electrode; and c. an alkaline electrolyte in contact with the iron electrode and the nickel electrode. 36 . The nickel-iron rechargeable battery of claim 35 , wherein during cycling of the battery the iron electrode comprises bismuth and iron sulfide. 37 . The nickel-iron rechargeable battery of claim 35 , wherein bismuth sulfide is present in an amount from 5 to 10 w/w % of the weight of the iron electrode. 38 . The nickel-iron rechargeable battery of claim 35 , wherein the polymeric binder is present in an amount from 5 to 30 w/w % of the weight of the iron electrode. 39 . The nickel-iron rechargeable battery of claim 35 , wherein the iron electrode is porous. 40 . The nickel-iron rechargeable battery of claim 35 , wherein the alkaline electrolyte comprises KOH 41 . A nickel-iron rechargeable battery comprising a. an iron electrode comprising carbonyl iron, a polymeric binder and a bismuth oxide additive; b. a nickel electrode spaced from the iron electrode; and c. an alkaline electrolyte in contact with the iron electrode and the nickel electrode. 42 . The nickel-iron rechargeable battery of claim 41 , wherein during cycling of the battery the iron electrode comprises bismuth. 43 . The nickel-iron rechargeable battery of claim 41 , wherein the polymeric binder is present in an amount from 5 to 30 w/w % polymeric binder. 44 . The nickel-iron rechargeable battery of claim 41 , wherein the iron electrode is porous. 45 . The nickel-iron rechargeable battery of claim 41 , wherein the electrolyte comprises KOH. 46 . A method for manufacturing an iron electrode for use in an iron-based rechargeable battery, the method comprising: a. combining carbonyl iron powder with a polymeric binder and a bismuth sulfide additive to create a mixture; wherein the bismuth sulfide additive is present in an amount from 5 to 10 w/w % of the weight of the mixture; and b. coating a metallic grid with the mixture. 47 . The method of claim 46 , wherein during cycling of the battery the iron electrode comprises bismuth and iron sulfide. 48 . The method of claim 46 further comprising charging and discharging the formed electrode a plurality of times to allow the discharge capacity to increase to a stable value and the electrode to reach a lower hydrogen evolution rate. 49 . The method of claim 46 , wherein the mixture comprises 5 to 30 w/w % polymeric binder. 50 . The method of claim 46 , wherein the mixture further comprises 5 to 50 w/w % soluble additive. 51 . The method claim 46 further comprising the step of heating and applying pressure to the grid.