Process for improving the emission of electron field emitters
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-038/10
H01J-001/62
H01J-001/00
출원번호
US-0882719
(2001-06-15)
등록번호
US-7449081
(2008-11-11)
발명자
/ 주소
Bouchard,Robert Joseph
Cheng,Lap Tak Andrew
Lavin,John Gerard
Roach,David Herbert
출원인 / 주소
E. I. du Pont de Nemours and Company
인용정보
피인용 횟수 :
3인용 특허 :
28
초록▼
This invention provides a process for improving the field emission of an electron field emitter comprised of an acicular emitting substance such as acicular carbon, an acicular semiconductor, an acicular metal or a mixture thereof, comprising applying a force to the surface of the electron field emi
This invention provides a process for improving the field emission of an electron field emitter comprised of an acicular emitting substance such as acicular carbon, an acicular semiconductor, an acicular metal or a mixture thereof, comprising applying a force to the surface of the electron field emitter wherein the force results in the removal of a portion of the electron field emitter thereby forming a new surface of the electron field emitter.
대표청구항▼
What is claimed is: 1. A process for improving the field emission of an electron field emitter comprised of an acicular emitting substance, comprising: (a) attaching particles of an acicular emitting substance to a substrate to form said electron field emitter; (b) contacting a material with said e
What is claimed is: 1. A process for improving the field emission of an electron field emitter comprised of an acicular emitting substance, comprising: (a) attaching particles of an acicular emitting substance to a substrate to form said electron field emitter; (b) contacting a material with said electron field emitter, wherein said material forms an adhesive contact with said electron field emitter and said adhesive contact provides sufficient adhesive force when said material is separated from said electron field emitter so that a portion of said electron field emitter is removed or rearranged thereby forming a new surface of said electron field emitter; and (c) separating said material from said electron field emitter. 2. The process of claim 1 wherein, when said material is separated from said electron field emitter, a portion of said electron field emitter is removed. 3. The process of claim 2 wherein said acicular emitting substance is acicular carbon. 4. The process of claim 3 wherein said acicular carbon is comprised of carbon nanotubes. 5. The process of claim 4 wherein said carbon nanotubes are single wall carbon nanotubes. 6. The process of claim 5 wherein said single wall carbon nanotubes are laser ablation grown single wall carbon nanotubes. 7. The process of claim 5, wherein said carbon nanotubes are less than about 9 wt % of the total weight of said electron field emitter. 8. The process of claim 5, wherein said carbon nanotubes are less than about 5 wt % of the total weight of said electron field emitter. 9. The process of claim 5, wherein said carbon nanotubes are less than about 1 wt % of the total weight of said electron field emitter. 10. The process of claim 5, wherein said carbon nanotubes are about 0.1 wt % to about 2 wt % of the total weight of said electron field emitter. 11. The process of claim 4 wherein said carbon nanotubes are multiwall carbon nanotubes. 12. The process of claim 4 wherein said carbon nanotubes comprise single wall carbon nanotubes and multiwall carbon nanotubes. 13. The process of claim 3 wherein said acicular carbon is comprised of carbon fibers grown from the catalytical decomposition of carbon-containing gases over small metal particles, each of which said fibers has graphene platelets arranged at an angle with respect to the fiber axis so that the periphery of said carbon fiber consists essentially of the edges of said graphene platelets. 14. The process of claim 1 wherein the electron field emitter is rearranged, and little or none of the electron field emitter is removed. 15. A process for improving the field emission of an electron field emitter comprised of an acicular emitting substance, comprising: (a) attaching particles of an acicular emitting substance to a substrate to form said electron field emitter; (b) contacting a material with said electron field emitter, wherein said material forms an adhesive contact with said electron field emitter, wherein there is no translational motion by said material with respect to the electron field emitter, and wherein said adhesive contact provides sufficient adhesive force when said material is separated from said electron field emitter so that a portion of said electron field emitter is removed or rearranged thereby forming a new surface of said electron field emitter; and (c) separating said material from said electron field emitter. 16. A process for improving the field emission of an electron field emitter comprised of an acicular emitting substance, comprising: (a) attaching particles of an acicular emitting substance to a substrate to form said electron field emitter; (b) contacting a liquid material with said electron field emitter, wherein said material forms an adhesive contact with said electron field emitter, and said adhesive contact provides sufficient adhesive force when said material is separated from said electron field emitter so that a portion of said electron field emitter is removed or rearranged thereby forming a new surface of said electron field emitter; and (c) separating said material from said electron field emitter. 17. A process for improving the field emission of an electron field emitter comprised of an acicular emitting substance, comprising: (a) attaching particles of an acicular emitting substance to a substrate to form said electron field emitter; (b) contacting a material with said electron field emitter before said electron field emitter is fired, wherein said material forms an adhesive contact with said electron field emitter, and said adhesive contact provides sufficient adhesive force when said material is separated from said electron field emitter so that a portion of said electron field emitter is removed or rearranged thereby forming a new surface of said electron field emitter; and (c) separating said material from said electron field emitter. 18. A process for improving the field emission of an electron field emitter comprised of an acicular emitting substance, consisting essentially of: (a) attaching particles of an acicular emitting substance to a substrate to form said electron field emitter; (b) contacting a material with said electron field emitter, wherein said material forms an adhesive contact with said electron field emitter, and said adhesive contact provides sufficient adhesive force when said material is separated from said electron field emitter so that a portion of said electron field emitter is removed or rearranged thereby forming a new surface of said electron field emitter; and (c) separating said material from said electron field emitter. 19. In the fabrication of a field emission triode, a completely screen printed field emission triode or a lighting device that comprises an electron field emitter comprised of an acicular emitting substance, a process for improving the field emission of the electron field emitter comprising: (a) attaching particles of an acicular emitting substance to a substrate to form said electron field emitter; (b) contacting a material with said electron field emitter, wherein said material forms an adhesive contact with said electron field emitter and said adhesive contact provides sufficient adhesive force when said material is separated from said electron field emitter so that a portion of said electron field emitter is removed or rearranged thereby forming a new surface of said electron field emitter; and (c) separating said material from said electron field emitter. 20. The process of claim 1, 15, 17, 18 or 19 wherein the material is applied in liquid form. 21. The process of claim 1, 15, 16, 18 or 19 wherein the material is thermally softened polymer film. 22. The process of claim 21 wherein the material is selected from the group consisting of an acrylic film, an ethylene/acrylic elastomer film, a block copolymer film and an ionomer film. 23. The process of claim 15, 16, 18, 19 or 20 wherein, when said material is separated from said electron field emitter, a portion of said electron field emitter is removed. 24. The process of any one of claims 15˜19 or 20 wherein said acicular emitting substance is carbon nanotubes. 25. The process of claim 24 wherein said carbon nanotubes are single wall carbon nanotubes. 26. The process of claim 25 wherein said single wall carbon nanotubes are laser ablation grown single wall carbon nanotubes. 27. The process of claim 24 wherein said carbon nanotubes are multiwall carbon nanotubes. 28. The process of claim 24 wherein the carbon nanotubes are single wall carbon nanotubes and multiwall carbon nanotubes. 29. The process of claim 24 wherein said carbon nanotubes are less than about 9 wt % of the total weight of said electron field emitter. 30. The process of claim 15, 16, 18, 19 or 20 wherein the electron field emitter is rearranged, and little or none of the electron field emitter is removed. 31. The process of claim 15, 16, 18, 19 or 20 wherein the acicular emitting substance comprises carbon fibers grown from the catalytical decomposition of carbon-containing gases over small metal particles, each of which said fibers has graphene platelets arranged at an angle with respect to the fiber axis so that the periphery of said carbon fiber consists essentially of the edges of said graphene platelets.
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