Claims
- 1. A microcavity OLED device comprising:
(a) a substrate; (b) a metallic bottom-electrode layer disposed over one surface of the substrate; (c) an organic EL element disposed over the metallic bottom-electrode layer; and (d) a metallic top-electrode layer disposed over the organic EL element, wherein one of the metallic electrode layers is semitransparent and the other one is essentially opaque and reflective; and wherein the materials for the opaque and reflective metallic electrode layer are selected from Ag, Au, Al, or alloys thereof, the materials for the semitransparent metallic electrode layer are selected from Ag, Au, or alloys thereof, and wherein the thickness of the semitransparent metallic electrode layer and the location of the light emitting layer are selected to enhance the emission output of the microcavity OLED device above that of a similar device without the microcavity.
- 2. The microcavity OLED device according to claim 1 wherein both of the metallic electrode layers are Ag and the thickness of the semitransparent electrode layer is between 10 nm and 30 nm.
- 3. The microcavity OLED device according to claim 1 wherein the metallic bottom-electrode layer is semitransparent and the light is emitted through the substrate.
- 4. The microcavity OLED device according to claim 3 wherein the device further includes a high index absorption-reduction layer disposed between the semitransparent metallic bottom-electrode layer and the substrate.
- 5. The microcavity OLED device according to claim 4 wherein the absorption-reduction layer has an index of refraction greater than 1.6.
- 6. The microcavity OLED device according to claim 3 wherein the device further includes a transparent conductive spacer layer disposed between the semitransparent metallic bottom-electrode layer and the organic EL element or between the organic EL element and the metallic top-electrode layer.
- 7. The microcavity OLED device according to claim 4 wherein the thickness of the absorption-reduction layer approximately satisfies the equation
- 8. The microcavity OLED device according to claim 1 wherein the metallic top-electrode layer is semitransparent and the light is emitted through the semitransparent metallic top-electrode layer.
- 9. The microcavity OLED device according to claim 8 wherein the device further includes a high index absorption-reduction layer disposed over the semitransparent top-electrode layer.
- 10. The microcavity OLED device according to claim 9 wherein the absorption-reduction layer has an index of refraction greater than 1.6.
- 11. The microcavity OLED device according to claim 8 wherein the thickness of the absorption-reduction layer approximately satisfies the equation
- 12. The microcavity OLED device according to claim 8 wherein the device further includes a transparent conductive spacer layer disposed between the reflective metallic bottom-electrode layer and the organic EL element or between the organic EL element and the metallic top-electrode layer.
- 13. The microcavity OLED device according to claim 1 wherein the bottom-electrode layer is the anode and the top-electrode layer is the cathode.
- 14. The microcavity OLED device according to claim 1 wherein the bottom-electrode layer is the cathode and the top-electrode layer is the anode.
CROSS REFERENCE TO RELATED APPLICATION
[0001] Reference is made to commonly assigned U.S. patent application Ser. No. ______ filed concurrently herewith, entitled “Organic Light-Emitting Diode Display With Improved Light Emission Using Metallic Anode” by Pranab K. Raychaudhuri et al, the disclosures of which are incorporated herein by reference.