For any type of electronic devices, the deliberate control of the electronic devices is an important point. In the aborning field of polymer electronic devices, too, this will be necessary and enables entirely new applications for these electronic devices. The electronic devices can be influenced by a mechanical pushbutton element. It is thus possible to switch or to influence electrical signals or material constants.
Taking this as a departure point, the invention is based on the object of providing a maximally cost-effective and compatible switching element for polymer electronic devices.
This object is achieved by means of the inventions specified in the independent claims. Advantageous refinements emerge from the dependent claims.
Accordingly, a switching element, in particular a pushbutton element, for the mechanical switching of polymer electronic devices has conducting and nonconducting organic substances or comprises such substances. The organic substances are polymers, in particular. A combination of organic materials with conventional materials such as metals, for instance, is also possible.
This obviates the interconnection of nonpolymeric pushbutton units with polymeric circuits. By virtue of the polymeric pushbutton or switching element, on the one hand the advantages of polymer electronic devices such as flexibility, cost-effectiveness and printability can be utilized for the switching element itself; on the other hand, however, the major advantage is also afforded that the switching element can be produced together with the electronic devices.
The electronic devices can be influenced permanently, reversibly and temporarily by the mechanical switching element. For this purpose, the switching element can for example be mechanically switched reversibly or irreversibly.
Alternatively or supplementarily, the switching element is a switching element which changes one of its electrical values, in particular its capacitance, analogously, that is to say for example proportionally or logarithmically, with the magnitude of the pressure exerted on the switching element.
In one preferred variant, the switching element has two organic conduction elements situated opposite one another, for example in the form of electrodes and/or contact elements, which are separated by an insulating organic layer having an opening. In particular, one of the two organic conduction elements is then flexible, so that it can be pressed through the opening in the insulating organic layer onto the other organic conduction element. If the conduction element is elastically deformable in this case, then a contact is thereby closed reversibly, that is to say temporarily. If, by contrast, the conduction element is plastically deformable, then the contact is permanently closed.
In another variant, the switching element has three organic conduction elements, of which two are conductively connected by the third and the third can be removed from the first two conduction elements by pressure in order to interrupt the electrical conduction. It is thereby possible to realize a contact which can be disconnected by pressure. For this purpose, the third conduction element may be mounted in resilient fashion or be flexible itself. In the latter case, a reversible or irreversible switching behavior results depending on whether the third conduction element is plastically or elastically deformable.
For a contact that is interrupted by pressure, the switching element may also have an organic conduction element and means by which the conduction element can be interrupted if pressure is exerted on them.
Alternatively or supplementarily, the switching element may have an organic transistor, in particular a field effect transistor, the current of which can be controlled by pressure on the switching element.
In a method for producing a switching element, the latter is embodied with or in conducting and insulating organic substances. Advantageous refinements of the method emerge analogously to the advantageous refinements of the switching element, and vice versa.
Further advantages and features of the invention emerge from the description of an exemplary embodiment with reference to the drawing, in which
Organic substances or materials, in particular polymers, are used for the construction of switching elements. Use is preferably made of typical organic materials of polymer electronic devices, such as, for example, conducting, nonconducting, insulating, flexible polymers. The exemplary embodiments can be differentiated into three classes:
It is likewise possible to reverse the switching behavior, that is to say that a permanent electrical conduction can be disconnected by mechanical pressure. A switching element suitable for this is illustrated in
The application of class b) is in turn divided into two possibilities. Firstly it is possible to produce an irreversible conductivity between two electrodes, and secondly an existing conductivity may be interrupted irreversibly. In
The possibility of permanently producing a conductive connection is identical in construction to the exemplary embodiment of
Switching elements of class c) are capacitive switches, for example, which change their capacitance as a result of mechanical pressure.
A further embodiment has a construction like that illustrated in
Yet another embodiment has a construction like that illustrated in
Various combinations of the switch types presented are also possible.
Polymeric switching elements or switches can be produced extremely favorably on account of the material and production costs. The materials are themselves flexible and can be applied on large-area, flexible substrates without any problems. A further important point is the possibility afforded for problem-free integration of these switches into organic circuits such as are used in polymer electronic devices. This integration enables completely new applications in polymer electronic devices, such as, for example, all polymers, cost-effective electronic game devices for single use.
Number | Date | Country | Kind |
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10340644.0 | Sep 2003 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/DE04/01929 | 8/31/2004 | WO | 3/2/2006 |