Assay plates, reader systems and methods for luminescence test measurements

The invention claimed is: 1. A multi-well plate comprising a plate top having plate top openings and a plate bottom mated to said plate top to define wells of said multi-well plate, said plate bottom comprising a substrate having a top surface with electrodes patterned thereon and a bottom surface with electrical contacts patterned thereon, said electrical contacts being positioned on said bottom surface between said wells of said multi-well plate, wherein said electrodes and contacts are patterned such that each well comprises: (a) a working electrode on said top surface of said substrate, wherein said working electrode is electrically connected to a first of said electrical contacts; and (b) a counter electrode on said top surface of said substrate, wherein said counter electrode is electrically connected with a second of said electrical contacts and said working and counter electrodes are electrically isolated, wherein said plate bottom comprises an insulating substrate and a conductive substrate, wherein said conductive substrate is folded around said insulating substrate forming said electrodes on a first side of said insulating substrate and said electrical contacts on a second side of said insulating substrate. 2. The multi-well plate of claim 1 , wherein said multi-well plate is a 4 well plate, 6 well plate, 24 well plate, 96 well plate, 384 well plate, 1536 well plate, 6144 well plate or 9600 well plate. 3. The multi-well plate of claim 1 , wherein said electrodes and contacts are patterned into individually addressable sectors of wells. 4. The multi-well plate of claim 1 , wherein said first of said electrical contacts is electrically isolated from the electrical contacts for working electrodes in additional wells of said multi-well plate. 5. The multi-well plate of claim 1 , wherein working electrodes in at least two wells of said multi-well plate are connected to a common electrical contact between said at least two wells. 6. The multi-well plate of claim 1 , wherein said electrodes comprise carbon particles. 7. The multi-well plate of claim 1 , wherein said electrodes comprise a printed conductive material. 8. The multi-well plate of claim 1 , further comprising a luminescent label in one or more of said wells. 9. The multi-well plate of claim 8 , wherein said luminescent label is an electrochemiluminescent label. 10. The multi-well plate of claim 9 , wherein said electrochemiluminescent label is a ruthenium or osmium-containing organometallic compound. 11. The multi-well plate of claim 10 , wherein said electrochemiluminescent label comprises tris-bipyridyl-ruthenium. 12. The multi-well plate of claim 1 , wherein said multi-well plate further includes one or more wells useful in the conduct of a chemiluminescence and/or fluorescence assay. 13. The multi-well plate of claim 1 , wherein said plate or a component thereof comprises less than 1 wt % silicone. 14. The multi-well plate of claim 1 , wherein said electrodes comprise metal-coated pressure sensitive adhesive. 15. The multi-well plate of claim 1 , wherein at least one well comprises a surface of said working electrodes and said surface is bounded by a dielectric surface. 16. A multi-well plate according to claim 1 wherein said electrodes patterned on said top surface are electrically connected to said electrical contacts patterned on said bottom surface, wherein said substrate further comprises one or more conductive through-holes electrically that provide said electrical connections between said electrodes patterned on said top surface and said electrical contacts patterned on said bottom surface. 17. The multi-well plate of claim 1 , wherein one or more of said electrodes comprise a plurality of assay domains formed thereon. 18. The multi-well plate of claim 17 , wherein said plurality of assay domains comprises at least four assay domains. 19. The multi-well plate of claim 17 , wherein said plurality of assay domains comprises at least seven assay domains. 20. The multi-well plate of claim 17 , wherein said plurality of assay domains comprises at least ten assay domains. 21. The multi-well plate of claim 17 , wherein said plurality of assay domains are defined by openings in one or more dielectric layers supported on said working electrodes. 22. The multi-well plate of claim 21 , wherein said plurality of assay domains each comprise a binding reagent immobilized thereto. 23. The multi-well plate of claim 22 , wherein said binding reagent is a protein. 24. The multi-well plate of claim 22 , wherein said binding reagent is an antibody. 25. The multi-well plate of claim 22 , wherein said binding reagent is a nucleic acid. 26. The multi-well plate of claim 25 , wherein said nucleic acid is capable of binding to a complementary nucleic acid linked to an assay component. 27. The multi-well plate of claim 22 , wherein said binding reagent is capable of binding a component of an assay conducted in said multi-well plate. 28. A kit for use in the conduct of an electrode-induced luminescence assay comprising, in one or more containers, a multi-well assay plate of claim 13 and at least one electrochemiluminescent label. 29. The kit of claim 28 , wherein said electrochemiluminescent label is a ruthenium or osmium-containing organometallic compound. 30. The kit of claim 29 , wherein said electrochemiluminescent label comprises tris-bipyridyl-ruthenium. 31. The kit of claim 28 , wherein said electrochemiluminescent label is attached to a protein. 32. The kit of claim 28 , wherein said electrochemiluminescent label is attached to an antibody. 33. The kit of claim 28 , wherein said electrochemiluminescent label is attached to a nucleic acid. 34. The kit of claim 28 , further comprising one or more assay components, wherein at least one of said assay components is immobilized within said wells. 35. The kit of claim 34 , wherein said immobilized assay component is dried within said well. 36. The kit of claim 28 wherein said binding reagent is capable of binding a component of an assay conducted in said multi-well plate. 37. The kit of claim 36 , wherein said binding reagent is a protein. 38. The kit of claim 36 , wherein said binding reagent is an antibody. 39. The kit of claim 36 , wherein said binding reagent is a nucleic acid. 40. The kit of claim 39 , wherein said nucleic acid is capable of binding to a complementary nucleic acid linked to an assay component. 41. A method of making the multi-well plate of claim 1 , comprising: (a) forming said patterned electrodes and contacts to define a pattern in each well, thereby (i) introducing a plurality of through-holes in said substrate; and (ii) screen-printing said patterned electrodes and/or said electrical contacts and thereby filling said through-holes with a conducting material to provide an electrical connection between said working electrodes and said electrical contacts; and (b) attaching said plate top having a plurality of openings onto said plate bottom; wherein said plurality of openings forms a plurality of wells, each having at least one of said working electrodes.