EP1374138A2

EP1374138A2 - Device with at least two organic electronic components and method for producing the same

Info

Publication number: EP1374138A2
Application number: EP02753693A
Authority: EP
Inventors: Adolf Bernds; Wolfgang Clemens; Walter Fix; Markus Lorenz; Henning Rost
Original assignee: Siemens AG
Current assignee: PolyIC GmbH and Co KG
Priority date: 2001-03-26
Filing date: 2002-03-15
Publication date: 2004-01-02
Also published as: WO2002078052A2; US20040094771A1; JP2005509200A; WO2002078052A3

Abstract

The invention relates to a device with at least two organic electronic components that comprise at least one organic functional layer, as well as to a method for producing the same. Unlike conventional devices, the inventive device comprises at least two components from organic material and is therefore substantially less expensive and less complicated to produce than known devices that require a combination of organic with conventional electronic components. The inventive device completely eliminates, under certain circumstances, the need for conventional silicon semiconductor technology.

Description

description

Device with at least two organic electronic components and method for manufacturing the same

The invention relates to a device with at least two electronic components, which comprise at least one organic functional layer, and a manufacturing method therefor.

A device is known, e.g. a display with at least one organic functional layer, which is controlled by external conventional electronics (that is to say using silicon-containing semiconductor materials). A solar cell / photocell with at least one organic functional layer is also known, but the

The disadvantage is that, like the displays, it has to be controlled via conventional electronics.

A disadvantage of the previously known devices with at least two electronic components is that they comprise components made from conventional silicon semiconductor technology, which, compared to the organic electronic components, are considerably more complex in terms of process costs and production.

The object of the present invention is therefore to develop a complex, i.e. To provide at least two electronic components comprising device that is simple and inexpensive to manufacture, so that use as a disposable product is economical.

The invention relates to a device with at least two electronic organic components, the two components each comprising at least one organic functional layer and being functionally connected directly or indirectly.

The invention furthermore relates to a method for producing a device having at least two electronic electronic devices. ganic components, wherein the electronic organic components can be produced by printing, spraying, coating, embossing, imprinting, heating and / or irradiating a substrate.

The substrate is either coated or uncoated during manufacture. If it is coated, a functional layer can be produced by irradiation. Functional layers can be produced on the uncoated substrate by printing and / or embossing and knife application of a functional polymer, etc.

An electronic organic component is a component with at least one organic functional layer, which means that it has at least one crucial electronic component, such as. B. comprises the semiconducting and / or the conductive layer of organic material.

The term “organic material” and / or “organic” here encompasses all types of organic, organometallic and / or inorganic plastics which, for example, be called "plastics". These are all types of substances with the exception of the semiconductors that form the classic diodes (germanium, silicon) and the typical metallic conductors. A restriction in the dogmatic sense to organic material as carbon-containing material is therefore not provided, but rather is also due to the widespread use of e.g. Silicones thought. Furthermore, the term should not be subject to any restriction with regard to the large molecules, in particular to polymeric and / or oligomeric materials, but it is also entirely possible to use "small molecules".

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represent, but it is particularly thought of a combination of two independent devices of the same type of organic semiconductor technology.

In the following, the invention will be explained with reference to four figures, which describe exemplary embodiments of the invention:

FIG. 1 shows a top view of a pocket calculator, FIG. 2 shows a cross section of a pocket calculator,

Figure 3 shows a circuit for an optocoupler and

Figure 4 shows a cross section through an optocoupler.

In FIG. 1, the calculator 1 can be seen as a device in an overall view from above. The following electronic organic components are combined in this device: the organic display 2, which fulfills the monitor function of the calculator 1, and an organic energy store 3, such as an organic solar cell unit and / or battery, which supplies the energy for the calculator 1.

Furthermore, the calculator 1 has a keyboard 4, which works, for example, via organic electronics 6, for example pressure sensors, which are attached under the respective keys and therefore cannot be seen here. The parts / components listed so far are here on a single substrate 5, which e.g. can be a flexible substrate like a film.

A pocket calculator 1 is produced, for example, using large-area processes in which various organic components are applied to a substrate by printing, spraying, spin coating or the like in a continuous process. In the simplest case, the substrates can be drawn over a plurality of rollers connected in series until the functional layers of the individual organic components are completely applied. The occupied Substrates then only have to be cut before a single device such as a calculator 1 is manufactured.

The three components display 2, organic energy store 3 and keyboard 4 are functionally connected so that the calculator 1 shows the results requested on the display 2 during operation by actuating the keyboard 4 with the aid of the energy provided by the energy store 3.

Figure 2 shows the calculator 1 in cross section. The substrate 5, on which the organic display 2, the organic energy store 3 and the keyboard 4, with organic electronics 6 underneath, is applied, can be seen below. All components can be produced by simply printing on the substrate. Thus, a possibility for an inexpensive manufacture of these devices and an application as disposable products is realistic.

Figure 3 shows a circuit for an optocoupler. You can see the contacts or connections 8,9,12 and 17 that

Driver electronics 10, the light-emitting diode 11, a transparent, isolating separating layer 13 through which the light beam 14 penetrates, a receiving diode (light detector) 15 which is separated from the light-emitting diode 11 by the separating layer 13 and finally the evaluation electronics 16.

Figure 4 shows the same optocoupler in cross section. The light-emitting diode 11 with the driver electronics 10 is located on a substrate 18, which can also be a flexible substrate, on which there is a cover layer 19 (optional) on which the insulating, transparent separating layer 13 is located, which in turn, as it were, as a substrate for the receiving diode 15 and the evaluation electronics 16 is used.

All components of the devices shown can be produced, for example, by simply printing, spraying and / or coating etc. with organic material. P> H in O LΠ

Claims

claims

1. Device with at least two electronic organic components, the two components each comprising at least one organic functional layer and being functionally connected directly or indirectly.

2. Apparatus according to claim 1, wherein the components are applied to a substrate.

3. Device according to one of claims 1 or 2, wherein the substrate is a flexible substrate.

4. Device according to one of the preceding claims, in which the components are encapsulated.

5. Device according to one of the preceding claims, wherein the functional connection takes place via conductor tracks with organic electronics.

6. A method for producing a device with at least two electronic organic components, the electronic organic components being able to be produced by printing, spraying, coating, embossing and / or knife coating, imprinting, heating and / or irradiating a substrate.

7. The method according to claim 6, wherein the production takes place in a continuous process.

8. The method according to any one of claims 6 or 7, in which the production takes place over a large area.