Electrically conductive adhesives

What is claimed is: 1. An electrically conductive adhesive comprising: (a) an organic binder, (b) electrically conductive powders, and (c) an optional solvent, wherein, i) the electrically conductive powders comprises coated copper particles and silver particles; ii) the coated copper particles are comprised of copper cores that are surface coated with a coating composition, the coating composition comprising at least one conductive oxide; iii) the weight ratio of the electrically conductive powders to the organic binder is in the range of about 95:5-60:40; iv) the weight ratio of the coated copper particles to the silver particles is in the range of 5:95-97:3; and v) the at least one conductive oxide is a doped metal oxide comprising a metal oxide and a doping agent, where a) the metal oxide of the doped metal oxide is selected from tin oxide (SnO 2 ), zinc oxide (ZnO), indium oxide (In 2 O 3 ), cadmium oxide (CdO), nickel oxide (NiO), chromium oxide (Cr 2 O 3 ), and molybdenum oxide (MoO 3 ); and b) the doping agent of the doped metal oxide is selected from antimony, indium, gallium, fluorine, aluminum, lithium, iron, phosphorous, arsenic, boron, silicon, germanium, titanium, yttrium, zirconium, hafnium, and scandium. 2. The electrically conductive adhesive of claim 1 , wherein the weight ratio of the electrically conductive powders to the organic binder is in the range of about 95:5-70:30. 3. The electrically conductive adhesive of claim 2 , wherein the weight ratio of the electrically conductive powders to the organic binder is in the range of about 95:5-72:28. 4. The electrically conductive adhesive of claim 1 , wherein, the weight ratio of the coated copper particles to the silver particles is in the range of about 5:95-90:10. 5. The electrically conductive adhesive of claim 4 , wherein, the weight ratio of the coated copper particles to the silver particles is in the range of about 10:90-80:20. 6. The electrically conductive adhesive of claim 1 , wherein, the copper cores have a particle size distribution D50 ranging from about 0.08-50 μm. 7. The electrically conductive adhesive of claim 6 , wherein, the copper cores have a particle size distribution D50 ranging from about 0.5-35 μm. 8. The electrically conductive adhesive of claim 7 , wherein, the copper cores have a particle size distribution D50 ranging from about 0.5-20 μm. 9. The electrically conductive adhesive of claim 1 , wherein, the at least one conductive oxide is selected from the group consisting of selected from the group consisting of antimony doped tin oxide (ATO), gallium doped zinc oxide (GZO), aluminum doped zinc oxide (AZO), fluorine doped tin oxide (FTO), and combinations of two or more thereof. 10. The electrically conductive adhesive of claim 1 , wherein, the organic binder comprises an organic material selected from the group consisting of thermoset resins, thermoplastic resins, elastomers, and combinations of two or more thereof. 11. The electrically conductive adhesive of claim 10 , wherein, the organic binder further comprises at least one cross-linking agent. 12. The electrically conductive adhesive of claim 1 , wherein the optional solvent is included at a balance amount. 13. A bonded assembly comprising two substrates aligned in a spaced apart relationship, each of which having an inwardly facing surface and an outwardly facing surface, wherein, the inwardly facing surfaces of each of the two substrates is bonded by an electrically conductive bond, and wherein, the electrically conductive bond is formed by curing the electrically conductive adhesive recited in claim 1 . 14. An article comprising the bonded assembly of claim 13 . 15. The article of claim 14 , wherein the article is selected from the group consisting of an electronic device, an integrated circuit, a semiconductor device, a solar cell, and a light emitting diode. 16. A method for forming a bonded assembly comprising: a) providing two substrates aligned in a spaced apart relationship, each of which having an inwardly facing surface and an outwardly facing surface; b) placing the electrically conductive adhesive recited in claim 1 between the inwardly facing surfaces of each of the two substrates; and c) curing the electrically conductive adhesive to form an electrically conductive bond between the two substrates. 17. An electrically conductive adhesive comprising: (a) an organic binder, (b) electrically conductive powders, and (c) an optional solvent, wherein, i) the electrically conductive powders comprise coated copper particles and silver particles; ii) the coated copper particles are comprised of copper cores that are surface coated with a coating composition, the coating composition comprising at least one conductive oxide; iii) the weight ratio of the electrically conductive powders to the organic binder is in the range of about 95:5—60:40; iv) the weight ratio of the coated copper particles to the silver particles is in the range of 5:95—97:3; and v) the at least one conductive oxide is tin doped indium oxide.