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The present invention is directed to a touchscreen comprising touch side and device side electrodes wherein each electrode comprises in order an insulating substrate, a first electrically conductive layer in contact with said substrate, an exposed electrically conductive layer, wherein said exposed

The present invention is directed to a touchscreen comprising touch side and device side electrodes wherein each electrode comprises in order an insulating substrate, a first electrically conductive layer in contact with said substrate, an exposed electrically conductive layer, wherein said exposed electrically conductive layers are adjacent and separated by dielectric spacers, and wherein at least the first electrically conductive layers or the exposed electrically conductive layers comprise carbon nanotubes.

대표청구항 ▼

The invention claimed is: 1. A touchscreen comprising touch side and device side electrodes wherein each electrode comprises in order an insulating substrate, a first electrically conductive layer in contact with said substrate, an exposed electrically conductive layer, wherein said exposed electri

The invention claimed is: 1. A touchscreen comprising touch side and device side electrodes wherein each electrode comprises in order an insulating substrate, a first electrically conductive layer in contact with said substrate, an exposed electrically conductive layer, wherein said exposed electrically conductive layers are adjacent and separated by dielectric spacers, and wherein at least the first electrically conductive layers or the exposed electrically conductive layers comprise carbon nanotubes, wherein said carbon nanotubes comprise covalently attached hydrophilic species comprising carboxylic acid or carboxylic acid salt, or mixtures thereof, or a sulfur-containing group selected from: SOxZy Wherein x ranges from 1-3 and Z may be a Hydrogen atom or a metal cation of such metals as Na, Mg, K, Ca, Zn, Mn, Ag, Au, Pd, Pt, Fe, Co and y may range from 0 or 1. 2. The touchscreen of claim 1 wherein said exposed electrically conductive layers comprise carbon nanotubes. 3. The touchscreen of claim 2 wherein said first electrically conductive layers comprises at least one material from group consisting of electronically conductive polymers, transparent conducting oxides and transparent metal films. 4. The touchscreen of claim 3 wherein said first electrically conductive layer comprises polyethylenedioxythiophene. 5. The touchscreen of claim 3 wherein said first electrically conductive layer comprises polypyrrole, polyaniline or polythiophene. 6. The touchscreen of claim 3 wherein said first electrically conductive layer comprises tin doped indium oxide, fluorine doped zinc oxide, aluminum doped zinc oxide, indium doped zinc oxide, antimony doped tin oxide, or fluorine doped tin oxide. 7. The touchscreen of claim 3 wherein said first electrically conductive layer comprises a transparent metal film comprising silver, gold, copper or alloys of these materials. 8. The touchscreen of claim 3 wherein said electronically conductive polymer comprises a binder. 9. The touchscreen of claim 8 wherein said binder comprises water soluble or water dispersible polymers. 10. The touchscreen of claim 1 wherein said carbon nanotubes comprise single wall carbon nanotubes. 11. The touchscreen of claim 1 wherein the hydrophilic species is present in an amount of between 0.5 and 5 atomic %. 12. The touchscreen of claim 1 wherein said carbon nanotubes have an outer diameter of between 0.5 and 5 nanometers. 13. The touchscreen of claim 1 wherein said carbon nanotubes comprise bundles of a diameter of between 1 and 50 nanometers. 14. The touchscreen of claim 1 wherein said carbon nanotubes comprise bundles of a diameter of between 1 and 20 nanometers. 15. The touchscreen of claim 1 wherein said carbon nanotubes have a length of between 20 nanometers and 50 microns. 16. The touchscreen of claim 1 wherein said carbon nanotubes comprise bundles of a length of between 20 nanometers and 50 microns. 17. The touchscreen of claim 1 wherein said carbon nanotubes are metallic carbon nanotubes. 18. The touchscreen of claim 1 wherein said hydrophilic species comprises sulfonic acids or sulfonic acid salts or mixtures thereof 19. The touchscreen of claim 1 wherein said carbon nanotubes are open end carbon nanotubes. 20. The touchscreen of claim 1 wherein said covalently attached hydrophilic species is present on the outside wall of said carbon nanotubes. 21. The touchscreen of claim 1 wherein the electronically conductive layer comprising carbon nanotubes further comprises a binder. 22. The touchscreen of claim 1 wherein said electronically conductive layer adjacent said substrate has a sheet resistance of between 10 and 10,000 Ohm per square. 23. The touchscreen of claim 1 wherein said electronically conductive layer comprising carbon nanotubes have a sheet resistance of between 102 to 106 Ohm per square. 24. The touchscreen of claim 1 wherein said touchacreen is capable of greater than 500,000 single point actuations. 25. The touchscreen of claim 1 wherein said touchscreen has a visible light transparency of greater than 70 percent. 26. The touchscreen of claim 1 wherein said substrates have a visible light transparency of greater than 70 percent and comprise polyethyleneterephthalate, polyethylenenaphthalate, polycarbonate or glass. 27. The touchscreen of claim 1 wherein said touch side substrate further comprises an anti-glare coat 28. The touchscreen of claim 1 wherein said touch side substrate further comprises an anti-reflection coat. 29. The touchscreen of claim 1 wherein said touch side substrate further comprises a hardcoat having a pencil hardness greater than 2H. 30. The touchscreen of claim 1 wherein said touch side substrate further comprises a ultra violet light absorbing layer. 31. The touchscreen of claim 1 wherein the force required to actuate a point on the touchscreen does not change by more than 50 percent over 500,000 single point actuations. 32. A device comprising a display device having attached thereto a touchscreen comprising touch side and device side electrodes wherein each electrode comprises iii order an insulating substrate, a first electrically conductive layer in contact with said substrate, an exposed electrically conductive layer, wherein said exposed electrically conductive layers are adjacent and separated by dielectric spacers, and wherein at least the first electrically conductive layers or the exposed electrically conductive layers comprise carbon nanotubes, wherein said carbon nanotubes comprise covalently attached hydrophilic species comprising carboxylic acid or carboxylic acid salt, or mixtures thereof, or a sulfur-containing group selected from: SOxZy Wherein x ranges from 1-3 and Z may be a Hydrogen atom or a metal cation of such metals as Na, Mg, K, Ca, Zn, Mn, Ag, Au, Pd, Pt, Fe, Co and y may range from 0 or 1. 33. The device of claim 32 wherein said display device comprises a LCD based display. 34. The device of claim 33 wherein said LCD comprises a polarizer plate and the touchscreen is adhesively attached to said polarizer plate.