Electric lamp and discharge devices – With luminescent solid or liquid material – Solid-state type
Reexamination Certificate
1999-06-25
2002-09-03
Day, Michael H. (Department: 2879)
Electric lamp and discharge devices
With luminescent solid or liquid material
Solid-state type
C313S506000, C313S509000, C313S503000, C257S040000, C257S086000, C257S094000, C257S103000
Reexamination Certificate
active
06445126
ABSTRACT:
This invention relates to an organic electroluminescent (EL) device and more particularly, to an inorganic/organic junction structure suitable for use in a device of the type wherein an electric field is applied to a thin film of an organic compound to emit light.
BACKGROUND OF THE INVENTION
Active research works have been made on organic EL devices for use as displays because EL devices can be formed on a large area of glass. In general, organic EL devices have a basic configuration including a glass substrate, a transparent electrode of tin-doped indium oxide (ITO) etc., a hole transporting layer of an organic amine compound, a light emitting layer of an organic fluorescent material exhibiting electronic conductivity and intense light emission such as an aluminum quinolinol complex (Alq3), and an electrode of a metal having a low work function such as MgAg, wherein the layers are stacked on the substrate in the described order.
The device configurations which have been reported thus far have one or more organic compound layers interposed between a hole injecting electrode and an electron injecting electrode. Structures having two or three organic compound layers are typical.
Included in the two-layer structure are a structure having a hole transporting layer and a light emitting layer formed between the hole injecting electrode and the electron injecting electrode and another structure having a light emitting layer and an electron transporting layer formed between the hole injecting electrode and the electron injecting electrode. Included in the three-layer structure is a structure having a hole transporting layer, a light emitting layer, and an electron transporting layer formed between the hole injecting electrode and the electron injecting electrode. Also known is a one-layer structure wherein a single layer playing all the roles is formed from a polymer or a mixed system.
FIGS. 4 and 5
illustrate typical configurations of organic EL devices.
In
FIG. 4
, a hole transporting layer
14
and a light emitting layer
15
, both of organic compounds, are formed between a hole injecting electrode
12
and an electron injecting electrode
13
on a substrate
11
. In this configuration, the light emitting layer
15
also serves as an electron transporting layer.
In
FIG. 5
, a hole transporting layer
14
, a light emitting layer
15
, and an electron transporting layer
16
, all of organic compounds, are formed between a hole injecting electrode
12
and an electron injecting electrode
13
on a substrate
11
.
Reliability is a common problem to be solved for these organic EL devices. More particularly, organic EL devices in principle have a hole injecting electrode and an electron injecting electrode and need organic layers for effectively injecting and transporting holes and electrons from the electrodes, respectively. However, the organic materials of which the organic layers are formed are vulnerable during manufacture and have less affinity to the electrodes. Another problem is raised by the significantly accelerated degradation of organic thin films as compared with light emitting diodes (LED) and laser diodes (LD).
The EL devices emit light under the influence of an electric field. The function of a semiconductor layer constituting such an EL device is based on the radiative recombination of electron-hole pairs injected from a pair of electrodes into the semiconductor. Exemplary devices are light emitting diodes (LED) based on GaP and similar Group III-Group V semiconductors. Although these devices are effectively and widely utilized, their size is so small that it is not only difficult, but also uneconomical to apply the LEDs to large area displays. Several types of materials are known as the substitutes applicable to large area displays. Of these inorganic semiconductors, ZnS is most useful. The ZnS system, however, suffers from serious practical drawbacks including the lack of reliability. One exemplary mechanism associated with ZnS is deemed to be that carriers of one type are accelerated through the semiconductor under a strong electric field, to induce the local excitation of the semiconductor which is relaxed by radiative light emission.
It is known that of organic materials, simple aromatic molecules such as anthracene, perylene, and coronene are electroluminescent.
On practical use, these organic materials have the problems that they lack reliability like ZnS, and joining layers of these materials to current-injecting electrode layers is difficult.
The technique of depositing organic materials through sublimation leaves the problem that the resulting layers are soft and likely to recrystallize.
The technique of building up properly modified aromatic compounds by Langmuir-Blodgett method invites deterioration of film quality, dilution of active material, and an increase of manufacturing cost.
An EL device using anthracene is disclosed in U.S. Pat. No. 3,621,321. This device has the inconveniences of increased power consumption and low luminescence.
Another attempt to provide an improved device is U.S. Pat. No. 4,672,265 which discloses an EL device comprising a luminescent layer of a double layer structure.
However, the materials used in the double layer structure are organic materials having the above-mentioned inconveniences.
JP-A 10-92576 discloses an EL device comprising a semiconductor layer in the form of a thin dense polymer film composed of at least one conjugated polymer, a first contact layer adjoining a first surface of the semiconductor layer, and a second contact layer adjoining a second surface of the semiconductor layer. The polymer film of which the semiconductor layer is formed has a sufficiently low concentration of external charge carriers so that, when an electric field is applied between the first and second contact layers across the semiconductor layer with the second contact layer made positive relative to the first contact layer, charge carriers are injected into the semiconductor layer whereby the semiconductor layer emits light.
Conjugated polymers themselves are known, and their application to optical modulators, for example, is disclosed in European Patent Application No. 0294061. Polyacetylene is used as an active layer in a modulating structure between first and second electrodes. An insulating layer must be disposed between one electrode and the active layer so as to form a space charge region in the active layer providing an optical modulation effect. Nevertheless, the presence of the space charge region disables formation of electron-hole pairs that emit light through their decay. Therefore, such a structure fails to exert electroluminescence. The development of electroluminescence is utterly undesirable in European Patent Application No. 0294061 because the optical modulation effect is destroyed thereby.
To solve these problems, it is contemplated to utilize the advantages of both an organic material and an inorganic semiconductor material. Specifically, an organic/inorganic semiconductor junction is given by substituting an organic p-type semiconductor for the organic hole transporting layer. Such studies are disclosed in Japanese Patent No. 2636341, JP-A 2-139893, 2-207488, and 6-119973. However, it is difficult to design devices which surpass conventional organic EL devices with respect to luminescent performance and device reliability.
SUMMARY OF THE INVENTION
An object of the present invention is to provide an organic EL device capable of utilizing the advantages of both organic and inorganic materials and having a high efficiency, long lifetime, and low cost.
The present invention provides an organic electroluminescent device comprising a hole injecting electrode, an electron injecting electrode, and an organic layer participating in a light emitting function disposed between the electrodes, said organic layer including a light emitting layer comprising a conjugated polymer. In one embodiment, the device further includes an inorganic insulative hole injecting layer disposed between the light emitting layer and the hole injec
Arai Michio
Onitsuka Osamu
Day Michael H.
TDK Corporation
Zimmerman Glenn
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