Compositionally modulated zinc-iron multilayered coatings

What is claimed is: 1. An electrolyte solution for electroplating an alloy coating having about 1 wt % to about 20 wt % iron content and about 80 wt % to about 99 wt % zinc content, the electrolyte solution comprising: a metal salt comprising an iron salt and a first zinc salt, wherein a concentration of the first zinc salt is from about 0.02 mol/L to about 0.2 mol/L of the electrolyte solution, wherein a concentration of the iron salt is from about 0.07 mol/L to about 0.36 mol/L of the electrolyte solution; an alkali metal citrate having a concentration from about 0.01 mol/L to about 0.05 mol/L of the electrolyte solution; an alkali metal acetate having a concentration of about 0.1 mol/L to about 3 mol/L of the electrolyte solution; a citric acid having a concentration of about 0.01 mol/L to about 3 mol/L of the electrolyte solution; a pH modifying solution comprising a base, an acid, or combination thereof, wherein the pH of the electrolyte solution is about 3 to about 6; and a second zinc salt that is a glycine zinc salt having a concentration from about 0.1 mol/L to about 0.3 mol/L of the electrolyte solution, wherein the first zinc salt and the second zinc salt are different. 2. The electrolyte solution of claim 1 , wherein the pH of the electrolyte solution is from about 3 to about 5. 3. The electrolyte solution of claim 1 , wherein the iron salt comprises at least one of iron (II) sulfate, iron (II) chloride, iron (II) acetate, hydrates thereof, or combinations thereof. 4. The electrolyte solution of claim 1 , wherein the first zinc salt comprises at least one of zinc (II) sulfate, zinc (II) chloride, zinc (II) acetate, hydrates thereof, or combinations thereof. 5. The electrolyte solution of claim 1 , further comprising at least one of thiamine hydrochloride or hydrates thereof. 6. The electrolyte solution of claim 5 , wherein a concentration of the at least one of thiamine hydrochloride or hydrates thereof is from about 0.001 mol/L to about 0.003 mol/L of the electrolyte solution. 7. The electrolyte solution of claim 1 , wherein the alkali metal citrate comprises at least one of citric acid trisodium salt, citric acid disodium salt, citric acid monosodium salt, citric acid tripotassium salt, citric acid dipotassium salt, citric acid monopotassium salt, hydrates thereof, or combinations thereof. 8. The electrolyte solution of claim 1 , wherein the alkali metal acetate comprises at least one of acetic acid sodium salt, acetic acid potassium salt, hydrates thereof, or combinations thereof. 9. The electrolyte solution of claim 1 , wherein a concentration of the second zinc salt that is the glycine zinc salt is from about 0.1 mol/L to about 0.15 mol/L of the electrolyte solution. 10. The electrolyte solution of claim 1 , wherein the pH modifying solution comprises (1) a base comprising potassium hydroxide or sodium hydroxide, or (2) an acid comprising sulfuric acid, or (3) combinations thereof. 11. The electrolyte solution of claim 1 , further comprising borate. 12. The electrolyte solution of claim 11 , wherein the borate comprises a concentration of about 0.1 mol/L to about 1.5 mol/L. 13. An electrolyte solution for electroplating an alloy coating having about 5 wt % to about 20 wt % iron content and about 80 wt % to about 95 wt % zinc content, the electrolyte solution comprising: a metal salt comprising an iron salt and a first zinc salt, wherein a concentration of the iron salt is from about 0.07 mol/L to about 0.35 mol/L of the electrolyte solution; an alkali metal citrate having a concentration from about 0.01 mol/L to about 0.05 mol/L of the electrolyte solution; an alkali metal acetate having a concentration of about 0.5 mol/L to about 0.8 mol/L of the electrolyte solution; a citric acid having a concentration of about 0.1 mol/L to about 0.5 mol/L of the electrolyte solution; at least one of thiamine hydrochloride or hydrates thereof having a concentration of about 0.001 mol/L to about 0.01 mol/L of the electrolyte solution; a pH modifying solution comprising a base, an acid, or combination thereof wherein the pH of the electrolyte solution is about 3 to about 6; and a second zinc salt that is a glycine zinc salt having a concentration from about 0.1 mol/L to about 0.3 mol/L of the electrolyte solution, wherein the first zinc salt and the second zinc salt are different. 14. The electrolyte solution of claim 13 , wherein a concentration of the at least one of thiamine hydrochloride or hydrates thereof is from about 0.001 mol/L to about 0.003 mol/L of the electrolyte solution. 15. The electrolyte solution of claim 13 , wherein the pH of the electrolyte solution is from about 3 to about 5. 16. The electrolyte solution of claim 13 , wherein the iron salt comprises at least one of iron (II) sulfate, iron (II) chloride, iron (II) acetate, hydrates thereof, or combinations thereof. 17. The electrolyte solution of claim 13 , wherein the first zinc salt is selected from at least one of zinc (II) sulfate, zinc (II) chloride, zinc (II) acetate, hydrates thereof, or combinations thereof. 18. The electrolyte solution of claim 13 , wherein the first zinc salt comprises a concentration of from about 0.02 mol/L to about 0.2 mol/L of the electrolyte solution. 19. The electrolyte solution of claim 13 , wherein the alkali metal citrate comprises at least one of citric acid trisodium salt, citric acid disodium salt, citric acid monosodium salt, citric acid tripotassium salt, citric acid dipotassium salt, citric acid monopotassium salt, hydrates thereof, or combinations thereof. 20. The electrolyte solution of claim 13 , wherein the alkali metal acetate comprises at least one of acetic acid sodium salt, acetic acid potassium salt, hydrates thereof, or combinations thereof.