Claims
- 1. A field emission display faceplate comprising:
a transparent viewing layer; a transparent conductive layer formed on the transparent viewing layer; a grille of light-absorbing, opaque insulating material formed on the transparent conductive layer and including openings within the grille; and a plurality of pixels formed of cathodoluminescent material, each pixel formed in a respective one of the openings.
- 2. The faceplate of claim 1 wherein the cathodoluminescent material includes a metal oxide providing reduced resistivity in the cathodoluminescent material.
- 3. The faceplate of claim 2 wherein the metal oxide comprises a metal oxide chosen from a group consisting of vanadium pentoxide, tungsten trioxide and indium oxide.
- 4. The faceplate of claim 1 wherein the grille comprises manganese oxide.
- 5. The faceplate of claim 1 wherein the grille comprises cobalt oxide.
- 6. The faceplate of claim 1 wherein the grille comprises chromium oxide.
- 7. The faceplate of claim 1 wherein the cathodoluminescent material comprises powdered cathodoluminescent particles having a diameter of two microns or less and powdered indium oxide particles having diameters no larger than one-half micrometer that are electrophoretically co-deposited from a colloidal suspension.
- 8. The faceplate of claim 1 wherein the cathodoluminescent material comprises powdered cathodoluminescent particles having a first average diameter and powdered metal oxide particles having second diameters each not exceeding one-fourth of the first average diameter that are electrophoretically co-deposited from a colloidal suspension.
- 9. The faceplate of claim 1 wherein the cathodoluminescent material comprises first, second and third pluralities of pixels arranged such that each pixel of said first plurality of pixels has nearest neighbors including pixels of said second and third pluralities of pixels, and vice versa, wherein, when bombarded by electrons, said first plurality of pixels emit green light, said second plurality of pixels emit red light and said third plurality of pixels emit blue light.
- 10. A field emission display faceplate comprising:
a transparent viewing layer; a transparent conductive layer formed on the transparent viewing layer; a grille of light-absorbing, opaque insulating material formed on the transparent conductive layer and including openings within the grille; and a plurality of pixels formed of cathodoluminescent material, each pixel formed in one of the openings, the cathodoluminescent material including a metal oxide providing reduced resistivity in the cathodoluminescent material.
- 11. The faceplate of claim 10 wherein the grille comprises stripes formed essentially of a material chosen from a group consisting of manganese oxide, cobalt oxide and chromium oxide.
- 12. The faceplate of claim 10 wherein the metal oxide comprises a metal oxide chosen from a group consisting of vanadium pentoxide, tungsten trioxide and indium oxide.
- 13. The faceplate of claim 10 wherein the cathodoluminescent material including a metal oxide comprises first particles including powdered cathodoluminescent particles having a diameter of two microns or less and second particles including powdered indium oxide particles having diameters no larger than one-half micrometer, the first and second particles being electrophoretically co-deposited from a colloidal suspension.
- 14. The faceplate of claim 10 wherein the cathodoluminescent material including a metal oxide comprises first particles including powdered cathodoluminescent particles having a first average diameter and second particles including powdered metal oxide particles having second diameters each not exceeding one-fourth of the first average diameter, the first and second particles being electrophoretically co-deposited from a colloidal suspension.
- 15. A field emission display faceplate comprising:
a transparent viewing layer; a transparent conductive layer formed on the transparent viewing layer; and a plurality of pixels formed of cathodoluminescent material, each pixel formed in one of the openings, the cathodoluminescent material including a metal oxide providing reduced resistivity in the cathodoluminescent material.
- 16. The faceplate of claim 15, further comprising a grille of light-absorbing, opaque insulating material formed on the transparent conductive layer and including openings within the grille.
- 17. The faceplate of claim 16 wherein the grille comprises stripes formed essentially of a material chosen from a group consisting of manganese oxide, cobalt oxide and chromium oxide.
- 18. The faceplate of claim 15 wherein the metal oxide comprises a metal oxide chosen from a group consisting of vanadium pentoxide, tungsten trioxide and indium oxide.
- 19. The faceplate of claim 15 wherein the cathodoluminescent material including a metal oxide comprises first particles including powdered cathodoluminescent particles having a diameter of two microns or less and second particles including powdered indium oxide particles having diameters no larger than one-half micrometer, the first and second particles being electrophoretically co-deposited from a colloidal suspension.
- 20. The faceplate of claim 15 wherein the cathodoluminescent material including a metal oxide comprises first particles including powdered cathodoluminescent particles having a first average diameter and second particles including powdered metal oxide particles having second diameters each not exceeding one-fourth of the first average diameter, the first and second particles being electrophoretically co-deposited from a colloidal suspension.
- 21. A high resolution field emission display comprising:
a faceplate including:
a transparent viewing layer; a transparent conductive layer formed on the transparent viewing layer; a grille of light-absorbing, opaque insulating material formed on the transparent conductive layer and including openings within the grille, the openings being less than one hundred microns wide; and a plurality of localized regions of cathodoluminescent material each formed in a respective one of the openings; a baseplate including:
a substrate; an emitter formed on the substrate; a dielectric layer formed on the substrate and having an opening formed about the emitter; and a conductive extraction grid formed on the dielectric layer and having an opening formed about the emitter.
- 22. The display of claim 21 wherein the cathodoluminescent material includes a metal oxide providing reduced resistivity in the cathodoluminescent material.
- 23. The display of claim 21 wherein the openings formed by the intersecting stripes are less than fifty microns wide.
- 24. The display of claim 21 wherein the grille comprises stripes of manganese oxide.
- 25. The display of claim 21 wherein the grille comprises stripes of cobalt oxide.
- 26. The display of claim 21 wherein the grille comprises stripes of chromium oxide.
- 27. The display of claim 21 wherein the cathodoluminescent material includes a metal oxide chosen from a group consisting of vanadium pentoxide, tungsten trioxide and indium oxide.
- 28. The display of claim 21 wherein the cathodoluminescent material comprises powdered cathodoluminescent particles having a diameter of two microns or less including powdered indium oxide particles having diameters no larger than one-half micrometer that are electrophoretically co-deposited from a colloidal suspension.
- 29. The display of claim 21 wherein the cathodoluminescent material including a metal oxide comprises powdered cathodoluminescent particles having a first average diameter including powdered metal oxide particles having second diameters each not exceeding one-fourth of the first average diameter that are electrophoretically co-deposited from a colloidal suspension.
- 30. The display of claim 21 wherein the cathodoluminescent material comprises:
a first plurality of pixels each including Y2O3:Eu in a first cathodoluminescent material; a second plurality of pixels each including Y3(Al, Ga)5O12:Tb in a second cathodoluminescent material; and a third plurality of pixels each including Y2(SiO5):Ce in a third cathodoluminescent material, wherein each pixel of said third plurality of pixels includes nearest neighbor pixels of the first and second pluralities of pixels and vice versa.
- 31. A color field emission display comprising:
a faceplate including:
a transparent viewing layer; a transparent conductive layer formed on the transparent viewing layer; a grille of insulating material formed on the transparent conductive layer and including openings within the grille; a first plurality of localized regions of first cathodoluminescent material each formed in a respective one of the openings, the first cathodoluminescent material including first noncathodoluminescent materials providing reduced resistivity in the first cathodoluminescent material, the first cathodoluminescent material providing light of a first color in response to electron bombardment; a second plurality of localized regions of second cathodoluminescent material each formed in a respective one of the openings, the second cathodoluminescent material including second noncathodoluminescent materials providing reduced resistivity in the second cathodoluminescent material, the second cathodoluminescent material providing light of a second color in response to electron bombardment; and a third plurality of localized regions of third cathodoluminescent material each formed in a respective one of the openings, the third cathodoluminescent material including third noncathodoluminescent materials providing reduced resistivity in the third cathodoluminescent material, the third cathodoluminescent material providing light of a third color in response to electron bombardment; and a baseplate including:
a substrate; an emitter formed on the substrate; a dielectric layer formed on the substrate and having an opening formed about the emitter; and a conductive extraction grid formed on the dielectric layer and having an opening formed about the emitter.
- 32. The display of claim 31 wherein the grille comprises stripes of manganese oxide.
- 33. The display of claim 31 wherein the grille comprises stripes of cobalt oxide.
- 34. The display of claim 31 wherein the grille comprises stripes of chromium oxide.
- 35. The display of claim 31 wherein the metal oxide comprises a metal oxide chosen from a group consisting of vanadium pentoxide, tungsten trioxide and indium oxide.
- 36. The display of claim 31 wherein the first, second and third noncathodoluminescent materials each include powdered indium oxide particles having diameters no larger than one-half micrometer that are electrophoretically co-deposited from a colloidal suspension with cathodoluminescent particles having a diameter of two microns or less.
- 37. The display of claim 31 wherein the first, second and third cathodoluminescent materials each comprise powdered cathodoluminescent particles having a first average diameter and each includes noncathodoluminescent powdered metal oxide particles having second diameters each not exceeding one-fourth of the first average diameter.
- 38. The display of claim 31 wherein:
the first cathodoluminescent material forms a first plurality of pixels each including Y2O3:Eu; the second cathodoluminescent material forms a second plurality of pixels each including Y3(Al, Ga)5O12:Tb; and the third cathodoluminescent material forms a third plurality of pixels each including Y2(SiO5):Ce, wherein each pixel of said third plurality of pixels includes at least one nearest neighbor pixel of each of the first and second pluralities of pixels and vice versa.
- 39. A computer system comprising:
a central processing unit; a memory coupled to the central processing unit, the memory including a ROM storing instructions providing an operating system for the central processing unit and including a read-write memory providing temporary storage of data; an input device; and a display, the display comprising:
a baseplate comprising: a substrate; an emitter formed on the substrate; a dielectric layer formed on the substrate and including an opening surrounding the emitter; and a conductive extraction grid formed on the dielectric layer and including an opening formed surrounding the emitter; and a faceplate comprising:
a transparent viewing layer; a transparent conductive layer formed on the transparent viewing layer; a grille of insulating material formed on the transparent conductive layer and including openings within the grille; and a plurality of localized regions of cathodoluminescent material each formed in a respective one of the openings.
- 40. The computer of claim 39 wherein the cathodoluminescent material includes noncathodoluminescent material providing reduced resistivity in the cathodoluminescent material.
- 41. The computer of claim 39 wherein the plurality of localized regions of cathodoluminescent material comprises:
a first plurality of localized regions of first cathodoluminescent material each formed in one of the openings and providing light of a first color in response to electron bombardment, the first cathodoluminescent material including first noncathodoluminescent materials providing reduced resistivity in the first cathodoluminescent material; a second plurality of localized regions of second cathodoluminescent material each formed in one of the openings and providing light of a second color in response to electron bombardment, the second cathodoluminescent material including second noncathodoluminescent materials providing reduced resistivity in the second cathodoluminescent material; and a third plurality of localized regions of third cathodoluminescent material each formed in one of the openings and providing light of a third color in response to electron bombardment, the third cathodoluminescent material including third noncathodoluminescent materials providing reduced resistivity in the third cathodoluminescent material.
- 42. The computer of claim 39 wherein:
the cathodoluminescent material includes cathodoluminescent particles having a diameter of two microns or less; and noncathodoluminescent material providing reduced resistivity in the cathodoluminescent material includes metal oxide particles having diameters no larger than one-half micrometer.
- 43. The display of claim 39 wherein:
the cathodoluminescent material comprises cathodoluminescent particles having a first average diameter that are electrophoretically deposited from a colloidal suspension; and the noncathodoluminescent material comprises metal oxide particles having second diameters each not exceeding one-fourth of the first average diameter.
- 44. The computer of claim 39 wherein the grille comprises stripes of manganese oxide.
- 45. The computer of claim 39 wherein the grille comprises stripes of cobalt oxide.
- 46. The computer of claim 39 wherein the grille comprises stripes of chromium oxide.
- 47. A method of increasing contrast in a display comprising:
absorbing ambient light incident on a grille portion of the display with a dark material formed from a metal oxide; and charging localized portions of an insulator surrounding each pixel of the display with electrons that are incident on the localized portions of the insulator to provide electrostatic fields focusing electrons towards the pixels.
- 48. The method of claim 47, further comprising decreasing a voltage across a cathodoluminescent layer forming the pixel by including conductive particles in the cathodoluminescent layer.
- 49. The method of claim 47, further comprising reducing thermal quenching of the cathodoluminescent layer by reducing electrical heating of the cathodoluminescent layer through inclusion of the conductive particles in the cathodoluminescent layer.
- 50. The method of claim 47 wherein decreasing the voltage across the cathodoluminescent layer forming the pixel comprises including conductive particles formed from a metal oxide chosen from a group consisting of: tungsten oxide, indium oxide, tin oxide and vanadium oxide.
- 51. The method of claim 47 wherein absorbing ambient light incident on the grille portion of the display with the dark material comprises absorbing ambient light incident on the grille portion of the display with a material chosen from a group consisting of: cobalt oxide, chromium oxide and manganese oxide.
- 52. The method of claim 47 wherein charging localized portions of the insulator surrounding each pixel of the display with electrons that are incident near each pixel comprises electrostatically charging localized portions of the insulator with electrons that are incident near each pixel to provide electrostatic fields focusing electrons towards the pixel, where the insulator is chosen from a group consisting of: cobalt oxide, chromium oxide and manganese oxide.
- 53. A method of making a faceplate for a field emission display comprising:
forming a transparent conductive layer on a transparent viewing screen; forming a grille of insulating material on the transparent conductive layer, the grille including openings having a width of less than one hundred microns; and forming pixels of a cathodoluminescent material, each pixel being formed in a respective one of the openings.
- 54. The method of claim 53 wherein forming a grille comprises:
electrophoretically depositing a material through openings in a photoresist layer onto the transparent conductive layer, the material chosen from a group consisting of: manganese oxide, cobalt oxide and chromium oxide; removing the photoresist; and baking the material to provide an insulating grille.
- 55. The method of claim 53 wherein forming pixels comprises:
electrophoretically co-depositing a mixture of particles of powdered cathodoluminescent material and particles of powdered conductive material through a photoresist mask onto the transparent conductive layer; stripping the photoresist mask; and baking the deposited mixture.
- 56. The method of claim 53 wherein forming pixels comprises:
electrophoretically co-depositing through a photoresist mask and onto the transparent conductive layer a mixture of particles of powdered cathodoluminescent material having a diameter of two microns or less and powdered conductive material having a diameter of less than one-half micron; stripping the photoresist mask; and baking the deposited mixture.
- 57. The method of claim 53 wherein forming a grille comprises:
sputtering a material onto the transparent conductive layer; selectively removing portions of the material; and baking the material to form an insulating grille.
STATEMENT OF GOVERNMENT INTEREST
[0001] This invention was made with government support under Contract No. DABT63-93-C-0025 awarded by Advanced Research Projects Agency (ARPA). The government has certain rights in this invention.
Divisions (1)
|
Number |
Date |
Country |
Parent |
09256018 |
Feb 1999 |
US |
Child |
10146627 |
May 2002 |
US |