IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
|
출원번호 |
US-0388111
(2003-03-13)
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발명자
/ 주소 |
- Cok, Ronald S.
- Arnold, Andrew D.
- Winters, Dustin
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출원인 / 주소 |
|
대리인 / 주소 |
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인용정보 |
피인용 횟수 :
123 인용 특허 :
4 |
초록
▼
A top emitting OLED display includes a substrate; a patterned electrode formed above the substrate, defining a plurality of light emitting elements having gaps between the light emitting elements; a layer of OLED material disposed above the patterned electrode; a continuous transparent electrode dis
A top emitting OLED display includes a substrate; a patterned electrode formed above the substrate, defining a plurality of light emitting elements having gaps between the light emitting elements; a layer of OLED material disposed above the patterned electrode; a continuous transparent electrode disposed above the layer of OLED material; and a light-absorbing auxiliary electrode that is thermally and electrically conductive and in electrical and thermal contact with the continuous transparent electrode and located over the gaps between the light emitting elements of the display.
대표청구항
▼
1. A top emitting OLED display, comprising:a) a substrate;b) a patterned electrode formed above the substrate, defining a plurality of light emitting elements having gaps between the light emitting elements;c) a layer of OLED material disposed above the patterned electrode;d) a continuous transparen
1. A top emitting OLED display, comprising:a) a substrate;b) a patterned electrode formed above the substrate, defining a plurality of light emitting elements having gaps between the light emitting elements;c) a layer of OLED material disposed above the patterned electrode;d) a continuous transparent electrode disposed above the layer of OLED material; ande) a light-absorbing auxiliary electrode that is thermally and electrically conductive and in electrical and thermal contact with the continuous transparent electrode and located over the gaps between the light emitting elements of the display. 2. The OLED display claimed in claim 1, wherein the display is an active-matrix display, and further comprising a layer of active-matrix circuitry formed on the substrate under the patterned electrode. 3. The OLED display claimed in claim 1, wherein the display is a passive-matrix display, and further comprising a layer of conductors formed on the substrate for making electrical connection to the patterned electrode. 4. The OLED display claimed in claim 1, wherein the auxiliary electrode is located below the transparent electrode. 5. The OLED display claimed in claim 1, wherein the auxiliary electrode is located above the transparent electrode. 6. The OLED display claimed in claim 1, wherein the auxiliary electrode comprises a uniform light-absorbing material that is thermally and electrically conductive. 7. The OLED display claimed in claim 5, wherein the auxiliary electrode comprises a thermally and electrically conductive material and a thermally conductive light-absorbing layer. 8. The OLED display claimed in claim 7, where the thermally and electrically conductive layer is located below the transparent electrode and the light absorbing layer is located above the transparent electrode. 9. The OLED display claimed in claim 1, wherein the auxiliary electrode comprises light absorbing silver. 10. The OLED display claimed in claim 7, wherein the electrically and thermally conductive layer is comprised of aluminum, copper, magnesium, molybdenum, silver, titanium, or alloys thereof. 11. The OLED display claimed in claim 7, wherein the thermally conductive light-absorbing material comprises a metal oxide, silicon oxide, silicon nitride, carbon, a metal sulfide or combinations thereof. 12. The OLED display claimed in claim 1, further comprising a color filter array located above the transparent electrode. 13. The OLED display claimed in claim 1, wherein the light absorbing auxiliary electrode is black. 14. The OLED display claimed in claim 1, further comprising an anti-reflective coating located over the light absorbing auxiliary electrode. 15. A method of making a light emitting OLED display, comprising the steps of:a) providing a substrate;b) forming a patterned electrode above the substrate, defining a plurality of light emitting elements having gaps between the light emitting elements;c) disposing a layer of OLED material above the patterned electrode;d) disposing a continuous transparent electrode above the layer of OLED material; ande) locating a light-absorbing auxiliary electrode that is thermally and electrically conductive and in electrical and thermal contact with the continuous transparent electrode over the gaps between the light emitting elements of the display. 16. The method claimed in claim 14, wherein the display is an active-matrix display, and further comprising the step of forming a layer of active-matrix circuitry on the substrate under the patterned electrode. 17. The method claimed in claim 14, wherein the display is a passive-matrix display, and further comprising the step of forming a layer of conductors on the substrate for making electrical connection to the patterned electrode. 18. The method claimed in claim 14, wherein the auxiliary electrode is located below the transparent electrode. 19. The method claimed in claim 14, wherein the auxiliary electrode is located above the transparent electrode. 20. The meth od claimed in claim 14, wherein the auxiliary electrode comprises a uniform light-absorbing material that is thermally and electrically conductive. 21. The method claimed in claim 19, wherein the auxiliary electrode comprises a thermally and electrically conductive material coated with a thermally conductive light-absorbing layer. 22. The method claimed in claim 14, wherein the auxiliary electrode comprises light absorbing silver. 23. The method claimed in claim 21, wherein the electrically and thermally conductive layer is comprised of aluminum, copper, magnesium, molybdenum, silver, titanium, or alloys thereof. 24. The method claimed in claim 21, wherein the thermally conductive light-absorbing material comprises a metal oxide, silicon oxide, silicon nitride, carbon, a metal sulfide or combinations thereof. 25. The method claimed in claim 14, further comprising the step of forming a color filter array above the transparent electrode. 26. The method claimed in claim 14, wherein the light absorbing auxiliary electrode is black. 27. The method claimed in claim 14, further comprising an anti-reflective coating located over the light absorbing auxiliary electrode. 28. The method claimed in claim 14, wherein the auxiliary electrode is sputtered. 29. The method of claim 14, further comprising the steps of providing an electrically and thermally conductive layer and a light-absorbing layer. 30. The method claimed in claim 28, wherein the electrically and thermally conductive electrode and light-absorbing layer of the auxiliary electrode are sputtered in two steps with a single shadow mask. 31. The method claimed in claim 14, wherein photo-lithographic processes are used to form the light-absorbing auxiliary electrode. 32. The method claimed in claim 20, wherein the thermally and electrically conductive material and the thermally conductive light-absorbing layer are deposited and then patterned and etched using a single photolithography mask step. 33. The method claimed in claim 14, wherein the auxiliary electrode is deposited using a thermal transfer process from a donor substrate. 34. The method claimed in claim 20, wherein the thermally conductive light absorbing layer is deposited using a thermal transfer process from a donor substrate.
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