Claims
- 1. A method for forming an electrode structure of a display comprising:a) depositing a layer of metal alloy over a backplate; b) depositing a cladding layer over said layer of metal alloy such that said layer of cladding overlies said layer of metal alloy; and c) etching said layer of metal alloy and said cladding layer using a wet etch process so as to form a plurality of electrodes, wherein said cladding layer comprises molybdenum and tungsten.
- 2. A method for forming an electrode structure of a display as recited in claim 1 wherein said metal alloy comprises a silver alloy.
- 3. A method for forming an electrode structure of a display as recited in claim 2 wherein said silver alloy comprises silver and palladium.
- 4. A method for forming an electrode structure of a display as recited in claim 3 wherein said silver alloy comprises from approximately 0.5 atomic percent palladium to approximately 2 atomic percent palladium.
- 5. A method for forming an electrode structure of a display as recited in claim 3 wherein said silver alloy further comprises titanium.
- 6. A method for forming an electrode structure of a display as recited in claim 5 wherein said silver alloy comprises up to approximately 2 atomic percent titanium.
- 7. A method for forming an electrode structure of a display as recited in claim 2 wherein said silver alloy further comprises from approximately 0.5 atomic percent copper to approximately 2 atomic percent copper.
- 8. A method for forming an electrode structure of a display as recited in claim 7 wherein said silver alloy comprises up to approximately 2 atomic percent titanium.
- 9. A method for forming an electrode structure of a display as recited in claim 1 wherein step a) and step b) are performed sequentially in a single sputtering tool.
- 10. A method for forming an electrode structure of a display as recited in claim 1 wherein said metal alloy comprises an aluminum alloy.
- 11. A method for forming an electrode structure of a display as recited in claim 10 wherein said aluminum alloy further comprises aluminum and neodymium.
- 12. A method for forming an electrode structure of a display as recited in claim 11 wherein said aluminum alloy comprises from approximately 0.5 atomic percent neodymium to approximately 6 atomic percent neodymium.
- 13. A method for forming an electrode structure of a display as recited in claim 11 wherein said metal alloy further comprises titanium.
- 14. A method for forming an electrode structure of a display as recited in claim 13 wherein said aluminum alloy comprises up to approximately 5 atomic percent titanium.
- 15. A method for forming an electrode structure of a display comprising:a) depositing a first metal alloy layer over a backplate; b) masking and etching said first metal alloy layer so as to form a plurality of first electrodes; c) depositing a resistor layer over said plurality of first electrodes; d) depositing a dielectric layer over said resistor layer; e) depositing a second metal alloy layer over said dielectric layer; f) masking and etching said second metal alloy layer so as to form a plurality of second electrodes; g) depositing a layer of silicon nitride over said plurality of second electrodes, said layer of silicon nitride adapted to protect said plurality of second electrodes during subsequent process steps.
- 16. A method for forming an electrode structure of a display as recited in claim 15 further comprising:a1) disposing a cladding layer over said first metal alloy layer such that said layer of cladding overlies said first metal alloy layer.
- 17. The electrode structure of claim 16 wherein said cladding layer further comprises molybdenum and tungsten.
- 18. A method for forming an electrode structure of a display as recited in claim 15 wherein step b) further comprises:b1) etching said first metal alloy layer and said layer of cladding sequentially in a single sputtering tool.
- 19. A method for forming an electrode structure of a display as recited in claim 15 further comprising:a1) disposing a cladding layer over said second metal alloy layer such that said layer of cladding overlies said second metal alloy layer.
- 20. A method for forming an electrode structure of a display as recited in claim 15 wherein step f) further comprises:f1) etching said second metal alloy layer and said layer of cladding sequentially in a single sputtering tool.
- 21. A method for forming an electrode structure of a flat panel display as recited in claim 15 wherein steps b) and f) are performed using an etchant that includes nitric acid and phosphoric acid and ascetic acid and water so as to form angled edges on each of said plurality of electrodes.
- 22. A method for forming an electrode structure o a flat panel display as recited in claim 15 wherein said first metal alloy layer and said second metal alloy layer comprise an aluminum alloy.
- 23. A method for forming an electrode structure of a flat panel display as recited in claim 15 wherein said first metal alloy layer and said second metal alloy layer comprise a silver alloy.
- 24. A method for forming an electrode structure of a display comprising:a) forming a plurality of first electrodes; b) depositing a resistor layer over said plurality of first electrodes; c) depositing a dielectric layer over said resistor layer; d) forming a plurality of second electrodes; and e) depositing a passivation layer over said plurality of second electrodes, said passivation layer adapted, to protect said plurality of second electrodes during subsequent process steps.
- 25. A method for forming an electrode structure as recited in claim 24 wherein said passivation layer further comprises a layer of silicon nitride.
- 26. A method for forming an electrode structure as recited in claim 25 further comprising the step of forming a gate structure, said gate structure disposed over said layer of silicon nitride.
- 27. A method for forming an electrode structure as recited in claim 25 further comprising the step of forming a gate structure, said gate structure disposed between said plurality of second electrodes and said layer of silicon nitride.
- 28. A method for forming an electro e structure as recited in claim 25 further comprising the step of forming a gate structure, said gate structure disposed between said dielectric layer and said plurality of second electrodes.
- 29. A method for forming an electrode structure as recited in claim 28 wherein said step of forming a gate structure further comprises the step of depositing a layer of gate metal, said layer of gate metal masked and etched prior to the deposition of said layer of silicon nitride.
- 30. A method for forming an electrode structure as recited in claim 28 wherein said step of forming a gate structure further comprises the step of depositing a layer of gate metal, said layer of gate metal masked and etched after the deposition of said layer of silicon nitride.
- 31. A method for forming an electrode structure as recited in claim 28 further comprising the step of forming a tantalum structure, said tantalum structure disposed between said gate structure and said plurality of second electrodes.
- 32. A method for forming an electrode structure as recited in claim 25 further comprising the step of depositing a dielectric layer prior to the step of depositing said layer of silicon nitride.
- 33. A method for forming an electrode structure of a display comprising:a) forming a plurality of first electrodes; b) depositing a resistor layer over said plurality of first electrodes; c) depositing a first dielectric layer over said resistor layer; d) forming a plurality of second electrodes; and e) depositing a second dielectric layer over said plurality of second electrodes, said second dielectric layer adapted to protect said plurality of second electrodes during subsequent process steps.
- 34. A method for forming an electrode structure as recited in claim 33 further comprising the step of depositing a first sputtered molybdenum layer over said plurality of second electrodes.
- 35. A method for forming an electrode structure as recited in claim 34 further comprising the step of depositing an evaporated molybdenum layer over said first sputtered molybdenum layer and depositing a second sputtered molybdenum layer over said evaporated molybdenum layer, said second dielectric layer disposed over said second layer of evaporated molybdenum.
- 36. A method for forming an electrode structure of a display comprising:a) forming a plurality of first electrodes; b) depositing a resistor layer over said plurality of first electrodes; c) depositing a first dielectric layer over said resistor layer; d) forming a plurality of second electrodes; and e) depositing a layer of evaporated chromium over said plurality of second electrodes, said layer of evaporated chromium adapted to protect said plurality of second electrodes during subsequent process steps.
- 37. A method for forming an electrode structure as recited in claim 36 further comprising the step of depositing an a second dielectric layer, said second dielectric layer disposed over said layer of evaporated chromium.
- 38. A method for forming an electrode structure as recited in claim 37 further comprising the step of depositing an evaporated molybdenum layer over said layer of evaporated chromium, said second dielectric layer disposed over said layer of evaporated molybdenum.
Parent Case Info
This is a division of application Ser. No. 09/421,781, filed Oct. 19, 1999.
US Referenced Citations (16)