Controlled polymeric material conductivity for use in a two-phase electrode layer

The invention claimed is: 1. An electro-optic assembly comprising first and second substrates, an adhesive layer, and a layer of electro-optic material disposed between the substrates, wherein the first and second substrates each comprise a two-phase electrode layer, each two-phase electrode layer comprising: a first phase made of a highly electronically-conductive matrix, and a second phase made of a polymeric material composition having a controlled volume resistivity. 2. An electro-optic display according to claim 1 wherein the first phase matrix is carbon nanotubes, silver nanowires, a metal coated open foam structure, or a printed mesh of wires, or a combination thereof. 3. An electro-optic display according to claim 1 wherein the first phase matrix is arranged regularly. 4. An electro-optic display according to claim 1 wherein the first phase matrix is arranged irregularly. 5. An electro-optic display according to claim 1 wherein the first phase makes up less than 10% of a viewing area. 6. An electro-optic display according to claim 1 wherein the controlled volume resistivity of the second phase is 1×10 7 to 1×10 12 Ohm-cm. 7. An electro-optic display according to claim 1 wherein the polymeric material composition of the second phase is made from a conductive polymer. 8. An electro-optic display according to claim 7 wherein the conductive polymer is PEDOT-PSS, polyacetylene, polyphenylene sulfide, or polyphenylene vinylene, or combinations thereof. 9. An electro-optic display according to claim 7 wherein the conductive polymer is an ionic conductive polymer. 10. An electro-optic display according to claim 9 wherein the ionic conductive polymer is a polymeric salt. 11. An electro-optic display according to claim 1 wherein the polymeric material composition of the second phase is made from a polymer and an additive. 12. An electro-optic display according to claim 11 wherein the additive is one or more ionic additives. 13. An electro-optic display according to claim 12 wherein the ionic additive is a salt, a polyelectrolyte, a polymer electrolyte, or a solid electrolyte, or a combination thereof. 14. An electro-optic display according to claim 13 wherein the ionic additive is a salt, and the salt is a fluorine-containing salt. 15. An electro-optic display according to claim 11 wherein the additive is a low number average molecular weight polymer containing hydroxyl. 16. An electro-optic display according to claim 15 wherein the additive is polyethylene glycol. 17. An electro-optic display comprising a layer of electro-optic material and an electrode layer arranged to apply an electrical field to the layer of electro-optic material, the electrode layer comprising: a first phase made of a highly electronically-conductive matrix, and a second phase made of a polymeric material composition having a resistivity of 1×10 7 to 1×10 12 Ohm-cm. 18. An electro-optic display according to claim 17 , wherein the first phase matrix is carbon nanotubes, silver nanowires, a metal coated open foam structure, or a printed mesh of wires, or a combination thereof. 19. An electro-optic display according to claim 17 , wherein the polymeric material composition of the second phase is made from a conductive polymer. 20. An electro-optic display according to claim 19 , wherein the conductive polymer is PEDOT-PSS, polyacetylene, polyphenylene sulfide, or polyphenylene vinylene, or combinations thereof.