Highly efficient OLEDs using doped ambipolar conductive molecular organic thin films
First Claim
Patent Images
1. An organic light emitting device including:
- an anode layer in direct contact with an organic hole injecting layer, wherein the anode layer comprises an anode material having a characteristic ionization potential, and the organic hole injecting layer comprises an organic hole injecting material having a characteristic ionization potential; and
an electron transporting layer in direct contact with the hole injecting layer, wherein the electron transporting layer comprises an organic electron transporting material and an organic hole-trapping emissive material having a characteristic ionization potential;
wherein the characteristic ionization potential of the organic hole injecting material is not more than about 0.7 eV greater than the characteristic ionization potential of the anode material, and wherein the characteristic ionization potential of the organic hole-trapping emissive material is approximately equal to or greater than the characteristic ionization potential of the organic hole injecting material.
0 Assignments
0 Petitions
Accused Products
Abstract
The present invention is directed to simplified OLED structures comprising an anode layer, a hole injecting layer (HIL) in direct contact with the anode layer, an emissive organic electron transporting layer (ETL) in direct contact with the hole injecting layer, and a cathode layer in direct contact with the emissive organic electron transporting layer. The hole injecting material used in the hole injecting layer is characterized, in particular, as being an organic material having an ionization potential that is not more than about 0.7 eV greater than the ionization potential of the material used for the anode layer. The emissive organic electron transporting layer comprises an organic electron transporting material and an organic hole-trapping emissive material, for example, an organic phosphorescent material that produces emission from a triplet excited state of an organic molecule.
66 Citations
20 Claims
-
1. An organic light emitting device including:
-
an anode layer in direct contact with an organic hole injecting layer, wherein the anode layer comprises an anode material having a characteristic ionization potential, and the organic hole injecting layer comprises an organic hole injecting material having a characteristic ionization potential; and
an electron transporting layer in direct contact with the hole injecting layer, wherein the electron transporting layer comprises an organic electron transporting material and an organic hole-trapping emissive material having a characteristic ionization potential;
wherein the characteristic ionization potential of the organic hole injecting material is not more than about 0.7 eV greater than the characteristic ionization potential of the anode material, and wherein the characteristic ionization potential of the organic hole-trapping emissive material is approximately equal to or greater than the characteristic ionization potential of the organic hole injecting material. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
-
-
13. An organic light emitting device including:
-
an organic hole injecting layer in direct contact with an electron transporting layer;
wherein the organic hole injecting layer comprises an organic hole injecting material having a characteristic ionization potential, and the electron transporting layer comprises an organic electron transporting material and an organic hole-trapping emissive material having a characteristic ionization potential;
wherein the characteristic ionization potential of the organic hole-trapping emissive material is approximately equal to or greater than the characteristic ionization potential of the organic hole injecting material. - View Dependent Claims (14, 15, 16, 17, 18, 19, 20)
-
Specification
-
- Resources
Litigation Campaign Assessment
Thank you for your request. You will receive a custom alert email when the Litigation Campaign Assessment is available.
×
-
Current AssigneeThe Trustees of Princeton University (Princeton University)
-
Original AssigneeThe Trustees of Princeton University (Princeton University)
-
InventorsBaldo, Marc A., Forrest, Stephen R., Adachi, Chihaya
-
Primary Examiner(s)Vo, Tuyet Thi
-
Application NumberUS10/452,659Publication NumberTime in Patent Office732 DaysField of Search313/504, 313/506, 313/502, 313/503, 428/690, 428/691, 428/917, 257/40, 257/89, 257/87, 315/169.1, 315/169.3US Class Current313/504CPC Class CodesH10K 2101/10 Triplet emissionH10K 50/11 characterised by the electr...H10K 50/14 Carrier transporting layersH10K 50/17 Carrier injection layersH10K 85/341 Transition metal complexes,...H10K 85/60 Organic compounds having lo...H10K 85/631 Amine compounds having at l...Y10T 428/24942 including components having...
