Method of fabricating a plasma-shell PDP with combined organic and inorganic luminescent substances
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01J-009/00
H01J-009/22
H01J-009/24
출원번호
UP-0172646
(2008-07-14)
등록번호
US-7833076
(2011-01-16)
발명자
/ 주소
Strbik, III, Oliver M.
Wedding, Carol Ann
출원인 / 주소
Imaging Systems Technology, Inc.
대리인 / 주소
Wedding, Donald K.
인용정보
피인용 횟수 :
3인용 특허 :
166
초록▼
A PDP constructed out of one or more plasma-shells with an organic luminescent substance(s) located in close proximity to each plasma-shell. Each plasma-shell is a hollow geometric body filled with an ionizable gas. Photons from the gas discharge inside the plasma-shell excite the luminescent substa
A PDP constructed out of one or more plasma-shells with an organic luminescent substance(s) located in close proximity to each plasma-shell. Each plasma-shell is a hollow geometric body filled with an ionizable gas. Photons from the gas discharge inside the plasma-shell excite the luminescent substance. In one embodiment the luminescent substance is located on the external surface of the plasma-shell. In another embodiment, the luminescent substance is located inside the plasma-shell. The plasma-shell may be made of an inorganic luminescent material with organic luminescent material located on the inside or outside of the plasma-shell. Plasma-shell includes plasma-sphere, plasma-disc, and plasma-dome. The plasma-shell may be used in combination with a plasma-tube.
대표청구항▼
The invention claimed is: 1. In a process for fabricating a plasma display panel comprising a multiplicity of gas discharge pixels, each pixel being in electrical contact with two or more addressing electrodes, the improvement which comprises positioning a multiplicity of ionizable gas filled plasm
The invention claimed is: 1. In a process for fabricating a plasma display panel comprising a multiplicity of gas discharge pixels, each pixel being in electrical contact with two or more addressing electrodes, the improvement which comprises positioning a multiplicity of ionizable gas filled plasma-shells on a substrate in electrical contact with the electrodes to form the pixels, an organic luminescent substance and an inorganic luminescent substance being combined and located in proximity to a gas discharge within a plasma-shell so as to be excited by photons from a gas discharge within the plasma-shell, said excited luminescent substances emitting visible and/or invisible light. 2. The invention of claim 1 wherein each plasma-shell is composed of UV and/or IR transmissive material. 3. The invention of claim 1 wherein an organic luminescent substance is located near and/or on the external surface of each plasma-shell. 4. The invention of claim 1 wherein the substrate is flexible. 5. The invention of claim 1 wherein each plasma-shell is selected from one or more members of the group consisting of plasma-sphere, plasma-disc, or plasma-dome. 6. The invention of claim 1 wherein one or more plasma-tubes are positioned on the substrate. 7. The invention of claim 1 wherein the organic luminescent substance and the inorganic luminescent substance are combined as a mixture. 8. The invention of claim 1 wherein an organic luminescent substance is applied to each plasma-shell. 9. The invention of claim 8 wherein the organic luminescent substance is a condensed or fused ring compound conjugated with multiple double bonds and includes monomers, dimers, trimers, polymers, and copolymers. 10. The invention of claim 8 wherein the organic luminescent substance is a naphthalimide, a substituted naphthalimide, a naphthalimide monomer, dimer, trimer, polymer, copolymer, or a derivative thereof. 11. The invention of claim 8 wherein the organic luminescent substance is a quantum dot material. 12. In a process for fabricating a single substrate plasma display comprised of a multiplicity of gas discharge pixels, each pixel being in electrical contact with two or more addressing electrodes, the improvement which comprises positioning a multiplicity of ionizable gas filled plasma-shells on a substrate in electrical contact with the electrodes to form the pixels, each plasma-shell being made of an inorganic luminescent substance with an organic luminescent substance located near and/or on the external surface of each plasma-shell, a source of secondary electron emission being provided inside each plasma-shell. 13. The invention of claim 12 wherein each plasma-shell is composed of UV and/or IR transmissive material. 14. The invention of claim 12 wherein the substrate is flexible or partly flexible. 15. The invention of claim 12 wherein each plasma-shell is selected from one or more members of the group consisting of plasma-sphere, plasma-disc, or plasma-dome. 16. The invention of claim 12 wherein one or more plasma-tubes are positioned on the substrate. 17. The invention of claim 12 wherein the organic luminescent substance is an organic photoluminescent phosphor selected from at least one member of the group consisting of organic photoluminescent monomers, dimers, trimers, organic photoluminescent polymers, copolymers, organic photoluminescent dyes, and organic photoluminescent dopants. 18. The invention of claim 12 wherein the organic luminescent substance is conjugated with multiple double bonds. 19. The invention of claim 12 wherein the organic luminescent substance is a perylene compound, perylene based compound, perylene based monomer, dimer, trimer, perylene based polymer, copolymer, and/or substance doped with perylene. 20. In a process for fabricating a single substrate PDP comprising a multiplicity of gas discharge pixels, the improvement which comprises positioning ionizable gas filled plasma-shells on a substrate containing an array of electrodes, each plasma-shell being made of an inorganic luminescent substance positioned in electrical contact with two or more electrodes, applying a luminescent substance to each plasma-shell to be excited by photons from a gas discharge within the plasma-shell, said luminescent substance comprising an organic luminescent substance. 21. The invention of claim 20 wherein each plasma-shell is selected from one or more members of the group consisting of plasma-sphere, plasma-disc, and plasma-dome. 22. The invention of claim 20 wherein the organic luminescent substance is a condensed or fused ring compound conjugated with multiple double bonds and includes monomers, dimers, trimers, polymers, and copolymers. 23. The invention of claim 20 wherein the organic luminescent substance is a naphthalimide, a substituted naphthalimide, a naphthalimide monomer, dimer, trimer, polymer, copolymer, or a derivative thereof. 24. The invention of claim 20 wherein the organic luminescent substance is a quantum dot material. 25. The invention of claim 20 wherein the organic luminescent substance contains a protective coating. 26. The invention of claim 25 wherein the protective coating is selected from acrylic or perylene compounds including monomers, dimers, trimers, polymers, copolymers, and derivatives thereof. 27. The invention of claim 20 wherein the substrate is flexible or partly flexible.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (166)
Ishimoto, Manabu; Shinoda, Tsutae; Tokai, Akira; Yamada, Hitoshi, AC-type gas discharge display with elliptical discharge tube.
Torobin Leonard B. (c/o Materials Technology Corp. ; P.O. Box 6844 Bellevue WA 98001), Centrifuge apparatus and method for producing hollow microspheres.
Chamberlain Craig S. (Woodbury MN) Vesley George F. (Hudson MN) Zimmerman Patrick G. (St. Paul MN) McAllister Jerome W. (Hudson MN), Coated glass microbubbles and article incorporating them.
Tokai,Akira; Yamada,Hitoshi; Ishimoto,Manabu; Shinoda,Tsutae, DISPLAY DEVICE EMPLOYING GAS DISCHARGE TUBES ARRANGED IN PARALLEL BETWEEN FRONT AND REAR SUBSTRATES TO COMPRISE A DISPLAY SCREEN, EACH TUBE HAVING A LIGHT EMITTING SECTION AS PART OF THE DISPLAY SCRE.
George, E. Victor; Wyeth, N. Convers; Green, Albert M.; Drobot, Adam T., Design, fabrication, testing, and conditioning of micro-components for use in a light-emitting panel.
George,Edward Victor; Wyeth,Newell Convers; Green,Albert Myron, Design, fabrication, testing, and conditioning of micro-components for use in a light-emitting panel.
Wedding ; Donald K. ; Fein ; Michael E. ; Ernsthausen ; Roger E. ; Byru m ; Jr. ; Bernard W., Gas discharge display device containing source of lanthanum series material in dielectric layer of envelope structure.
Bode Wolfgang W. (Sylvania OH) Dunlap Glenn H. (Maumee OH) Kobylak Anthony M. (Rossford OH) Richards Raymond S. (Toledo OH) Pfaender Lawrence V. (Toledo OH), Gas discharge display device having offset electrodes.
Wedding ; Donald K. ; Ernsthausen ; Roger E. ; Byrum ; Jr. ; Bernard W. ; Fein ; Michael E., Gas discharge display panel with lanthanide or actinide family oxide.
Yamada, Hitoshi; Tokai, Akira; Ishimoto, Manabu; Shinoda, Tsutae, Gas discharge tube and method for forming electron emission layer in gas discharge tube.
Cohen Smadar (Petach-Tickva MA ILX) Andrianov Alexander K. (Belmont MA) Wheatley Margaret (Media PA) Allcock Harry R. (State College PA) Langer Robert S. (Newton MA), Gas-filled polymeric microbubbles for ultrasound imaging.
Tiedt Rita (Berlin DEX) Weske Helmut (Berlin DEX) Maekawa Koichiro (Ichinomiya JPX) Doi Junichi (Aichi JPX), High-pressure discharge lamp having a ceramic discharge vessel, sintered body suitable therefor, and method for producin.
Torobin Leonard B. (Materials Technology Corp.,Tower Place/Ste. 1425 ; 3340 Peachtree Rd. NE. Atlanta GA 30026), Hollow microspheres made from dispersed particle compositions and their production.
Torobin Leonard B. (Materials Technology Corporation ; 120 Interstate N. ; Parkway E. ; Suite 158 Atlanta GA 30339), Hollow porous microspheres as substrates and containers for catalyst.
Torobin Leonard B. (Materials Technology Corporation ; 120 Interstate North ; Parkway East ; Ste. 158 Atlanta GA 30339), Hollow porous microspheres as substrates and containers for catalysts and method of making same.
Torobin Leonard B. (Materials Technology Corporation ; Tower Place/Suite 1425 ; 3340 Peachtree Rd. ; NE. Atlanta GA 30026), Hollow porous microspheres containing biocatalyst.
Green, Albert Myron; Drobot, Adam Thomas; George, Edward Victor; Johnson, Roger Laverne; Wyeth, Newell Convers, Light-emitting panel and a method for making.
Green, Albert Myron; Drobot, Adam Thomas; George, Edward Victor; Johnson, Roger Laverne; Wyeth, Newell Convers, Light-emitting panel and a method for making.
Torobin Leonard B. (Materials Technology Corp. ; 4174 148th Ave. ; NE. Redmond WA 98052), Metal microspheres, filamented hollow metal microspheres and articles produced therefrom.
Drobot, Adam T.; Wyeth, N. Convers; George, E. Victor; Green, Albert M., Method and apparatus for addressing micro-components in a plasma display panel.
Budrick Ronald G. (Ann Arbor MI) King Frank T. (Hillsboro OR) Martin Alfred J. (Ann Arbor MI) Nolen ; Jr. Robert L. (Ann Arbor MI) Solomon David E. (Ann Arbor MI), Method and apparatus for making uniform pellets for fusion reactors.
Frosch Robert A. Administrator of the National Aeronautics and Space Administration ; with respect to an invention of ( Glendale CA) Wang Taylor G. (Glendale CA) Elleman Daniel D. (San Marino CA), Method and apparatus for producing concentric hollow spheres.
Beggs James M. Administrator of the National Aeronautics and Space Administration ; with respect to an invention of ( Glendale CA) Wang Taylor G. (Glendale CA) Elleman Daniel D. (San Marino CA), Method and apparatus for producing gas-filled hollow spheres.
Torobin Leonard B. (Materials Technology Corp. ; 4174 148th Ave. NE. Redmond WA 98052), Method and apparatus for producing hollow metal microspheres and microspheroids.
George, Edward Victor; Johnson, Roger Laverne; Green, Albert Myron; Wyeth, Newell Convers, Method and system for energizing a micro-component in a light-emitting panel.
Yamada, Hitoshi; Tokai, Akira; Ishimoto, Manabu; Awamoto, Kenji; Shinoda, Tsutae, Method for forming coating film on internal surface of elongated tube and unit for forming the same.
Yamada,Hitoshi; Tokai,Akira; Ishimoto,Manabu; Awamoto,Kenji; Shinoda,Tsutae, Method for forming coating film on internal surface of elongated tube and unit for forming the same.
Tokai, Akira; Yamada, Hitoshi; Ishimoto, Manabu; Shinoda, Tsutae, Method for forming phosphor layer of gas discharge tube and method for fabricating phosphor layer supporting member.
Green, Albert Myron; Drobot, Adam Thomas; George, Edward Victor; Johnson, Roger Laverne; Wyeth, Newell Convers, Method for making a light-emitting panel.
Torobin Leonard B. (c/o Materials Technology Corporation ; Tower Place/Suite 1425 ; 3340 Peachtree Rd. NE. Atlanta GA 30026), Method for making hollow porous microspheres.
Block Jacob (Rockville MD) Lau John W. (Gaithersburg MD) Rice Roy W. (Alexandria VA) Colageo Anthony J. (Sharon MA), Method for making low sodium hollow glass microspheres.
Budrick Ronald G. (Ann Arbor MI) King Frank T. (Hillsboro OR) Nolen ; Jr. Robert L. (Ann Arbor MI) Solomon David E. (Ann Arbor MI), Method for manufacturing glass frit.
Johnson, Roger Laverne; Green, Albert Myron; George, Edward Victor; Wyeth, Newell Convers, Method for testing a light-emitting panel and the components therein.
Grossman Mark W. (Framingham MA) George William A. (Rockport MA) Maya Jakob (Brookline MA), Method of forming capsules containing a precise amount of material.
Torobin Leonard B. (Microcel Technology ; Inc. 1 Ethel Rd. ; Ste. 108 Edison NJ 08817), Methods for producing hollow microspheres made from dispersed particle compositions.
George, Edward Victor; Drobot, Adam Thomas; Johnson, Roger Laverne; Green, Albert Myron; Wyeth, Newell Convers, Micro-component for use in a light-emitting panel.
Bischel William K. ; Deacon David A.G. ; Cockroft Nigel J. ; Hehlen Markus P. ; Wagner David K. ; Tompane Richard B. ; Field Simon J., Optically integrating pixel microstructure.
Nadkarni Sadashiv (Jonquiere CAX) Jain Mukesh (Jonquiere CAX) Huni Jean-Paul (Jonquiere CAX), Process for producing silicon carbide and metal carbides.
Jain Mukesh K. (Jonquiere ; CAX) Nadkarni Sadashiv K. (Jonquiere ; CAX) Gesing Adam (Kingston CAX), Process of producing aluminum and titanium nitrides.
George, Edward Victor; Johnson, Roger Laverne; Green, Albert Myron; Wyeth, Newell Convers, Socket for use with a micro-component in a light-emitting panel.
George, Edward Victor; Johnson, Roger Laverne; Green, Albert Myron; Wyeth, Newell Convers, Socket for use with a micro-component in a light-emitting panel.
George, Edward Victor; Johnson, Roger Laverne; Green, Albert Myron; Wyeth, Newell Convers, Socket for use with a micro-component in a light-emitting panel.
George,Edward Victor; Johnson,Roger Laverne; Green,Albert Myron; Wyeth,Newell Convers, Socket for use with a micro-component in a light-emitting panel.
Hikmet, Rifat Ata Mustafa; Verhoeckx, Godefridus Johannes; Van Bommel, Ties; Wegh, René Theodorus, Luminescent product, a light source and a luminaire including a foam.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.