Electro-optic element with IMI layer

What is claimed is: 1. An electro-optic assembly, comprising: a first partially reflective, partially transmissive substrate defining a first surface and a second surface; a second partially reflective, partially transmissive substrate defining a third surface and a fourth surface; a space defined between the first substrate and the second substrate; a seal disposed about a perimeter of the first and second substrates; an electro-optic material disposed between at least one of the second surface of the first substrate and the third surface of the second substrate, wherein said electro-optic assembly is operable to change at least one of a reflectance state and a transmittance state in either a discrete or continuous manner; and a transparent electrode coating disposed on the second surface and the third surface, the transparent electrode coating including an insulator layer, a metal layer, an insulator layer (IMI) structure, wherein a reflectance off of the transparent electrode coating is less than about 2%. 2. The electro-optic assembly of claim 1 , wherein the electro-optic material is an electrochromic material. 3. The electro-optic assembly of claim 1 , wherein the electro-optic material is a liquid crystal. 4. The electro-optic assembly of claim 1 , wherein a “k” value of the insulator layer of the IMI structure is less than about 0.05. 5. The electro-optic assembly of claim 1 , wherein a sheet resistance of the IMI structure is less than about 10 ohms/sq. 6. The electro-optic assembly of claim 1 , wherein the reflectance is at least one of CIE Y, average reflectance, and weighted reflectance. 7. The electro-optic assembly of claim 1 , wherein the transparent electrode coating includes an absorption of less than 10%. 8. The electro-optic assembly of claim 7 , wherein the transmittance of the transparent electrode coating is greater than 95%. 9. The electro-optic assembly of claim 1 , wherein the IMI structure further includes a ZnO layer below the metal layer of the IMI structure. 10. The electro-optic assembly of claim 1 , wherein the reflectance of the transparent electrode coating is less than about 0.25%. 11. The electro-optic assembly of claim 1 , wherein said electro-optic assembly is operably coupled with a switchable mirror assembly that is attached to a vehicle. 12. An electro-optic assembly, comprising: a first partially reflective, partially transmissive substrate defining a first surface and a second surface; a second partially reflective, partially transmissive substrate defining a third surface and a fourth surface; an electro-optic material disposed between the second surface of the first substrate and the third surface of the second substrate; and a transparent electrode coating disposed on at least one of the second surface and the third surface, the transparent electrode coating including an insulator layer, a metal layer, an insulator layer (IMI) structure, wherein a reflectance off of the transparent electrode coating is less than about 2%. 13. The electro-optic assembly of claim 12 , wherein the reflectance of the transparent electrode is less than about 0.25%. 14. The electro-optic assembly of claim 12 , wherein an approximate thickness of the metal layer of the IMI structure equals −17.4 nm+11.44*refractive index of the insulator layer. 15. The electro-optic assembly of claim 12 , wherein an optical thickness of the insulator layers is between about ⅛ to ⅕ of a full wave. 16. The electro-optic assembly of claim 12 , wherein the electro-optic material is an electrochromic material that changes the transmittance of the electro-optic assembly in a continuous manner, and wherein the reflectance is essentially constant with changes to the transmittance. 17. An electro-optic assembly for a heads up display system, comprising: a first substrate defining a first surface and a second surface; a second substrate defining a third surface and a fourth surface; a space defined between the first substrate and the second substrate; an electro-optic material disposed between the second surface of the first substrate and the third surface of the second substrate, wherein said electro-optic assembly is operable to change the transmittance state in either a discrete or continuous manner; and a transparent electrode coating disposed on at least one of the second surface and the third surface, the transparent electrode coating including an insulator layer, a metal layer, an insulator layer (IMI) structure, wherein a transmittance of the IMI structure is greater than 80% and the reflectance is less than about 1%. 18. The electro-optic assembly of claim 17 , wherein the electro-optic material is an electrochromic material. 19. The electro-optic assembly of claim 17 , wherein the electro-optic material is a liquid crystal. 20. The electro-optic assembly of claim 17 , wherein the reflectance is essentially constant with changes to the transmittance of the electro-optic assembly. 21. A variable transmittance electro-optic assembly, comprising: a first partially reflective, partially transmissive substrate defining a first surface and a second surface; a second partially reflective, partially transmissive substrate defining a third surface and a fourth surface, wherein the first substrate and the second substrate are configured to be held in a parallel spaced apart relationship and sealed about a perimeter of the first and second substrates; an electro-optic material disposed between the second surface and the third surface; a principle fixed transflector including a transflector coating disposed on at least one of the first and second surfaces; and a low reflectance transparent electrode IMI coating disposed on secondary surfaces of said variable transmittance electro-optic assembly, and configured for p polarized light such that the electro-optic assembly has a low double image characteristic defined by a ratio of the reflectance of the transflector coating to a net reflectance of at least one of the secondary surfaces, and wherein the ratio is greater than 100.