High solubility iron hexacyanides

What is claimed is the following: 1 . A solution comprising: an aqueous solvent; a dissolved iron hexacyanide complex having a concentration in the aqueous solvent ranging between about 1 M and about 3 M; and at least two different counterions forming a salt of the dissolved iron hexacyanide complex; wherein the solution has a pH of about 13 or less. 2 . The solution of claim 1 , wherein the at least two different counterions comprise a first counterion and a second counterion; wherein a molar ratio of the first counterion to the second counterion ranges between about 1:10 and about 10:1. 3 . The solution of claim 2 , wherein the molar ratio of the first counterion to the second counterion ranges between about 0.9:1 and about 1.1:1. 4 . The solution of claim 2 , wherein the first counterion and the second counterion comprise different alkali metal cations. 5 . The solution of claim 4 , wherein the first counterion comprises a sodium cation and the second counterion comprises a potassium cation. 6 . The solution of claim 1 , wherein the aqueous solvent is substantially free of a co-solvent. The solution of claim 1 , wherein the solution has a pH ranging between about 8 and about 13. 8 . The solution of claim 1 , wherein the solution has a pH ranging between about 9 and about 13. 9 . The solution of claim 1 , wherein the solution has a pH ranging between about 8 and about 12. 10 . The solution of claim 1 , wherein the solution has a pH ranging between about 9 and about 12. 11 . The solution of claim 1 , wherein the at least two different counterions comprise a mixture of monovalent cations. 12 . The solution of claim 11 , wherein the mixture of monovalent cations comprises a mixture of sodium cations and potassium cations. 13 . The solution of claim 1 , wherein the dissolved iron hexacyanide complex comprises a mixture of iron (II) hexacyanide and iron (III) hexacyanide. 14 . The solution of claim 1 , further comprising: one or more of a viscosity modifier, a wetting agent, a buffering agent, and a supporting electrolyte. 15 . A flow battery comprising: a first half-cell containing a first electrolyte solution; and a second half-cell containing a second electrolyte solution; wherein at least one of the first half-cell and the second half-cell contains the solution of claim 1 . 16 . The flow battery of claim 15 , wherein the solution exhibits a charge/discharge density ranging between about 32 A-h/L and about 80 A-h/L. 17 . The flow battery of claim 15 , wherein the at least two different counterions comprise a first counterion and a second counterion; wherein a molar ratio of the first counterion to the second counterion ranges between about 1:10 and about 10:1. 18 . The flow battery of claim 17 , wherein the first counterion comprises a sodium cation and the second counterion comprises a potassium cation. 19 . The flow battery of claim 15 , wherein the solution has a pH ranging between about 8 and about 12. 20 . The flow battery of claim 15 , wherein the solution has a pH ranging between about 9 and about 12.