Patent application number | Description | Published |
20110108793 | JUNCTIONS COMPRISING MOLECULAR BILAYERS FOR THE USE IN ELECTRONIC DEVICES - The present invention relates to asymmetric molecular bilayers for the use in the junctions of electronic devices, such as crossbar junctions, comprising the general structure E | 05-12-2011 |
20110127487 | ELECTRONIC DEVICE FOR A RECONFIGURABLE LOGIC CIRCUIT - The invention relates to an electronic device, comprising a field effect transistor and a resistive switch electrically coupled with each other, wherein the resistive switch is configured to be switched between a state of low resistance and a state of high resistance. | 06-02-2011 |
20120075013 | Organic Zener Diode, Electronic Circuit, and Method for Operating an Organic Zener Diode - This disclosure relates to an organic zener diode having one electrode and one counter electrode, and an organic layer arrangement formed between the electrode and the counter electrode, wherein the organic layer arrangement includes the following organic layers: an electrically n-doped charge carrier injection layer on the electrode side, made from a mixture of an organic matrix material and an n-dopant, an electrically p-doped charge carrier injection layer on the counter electrode side, made from a mixture of another organic matrix material and a p-dopant, and an electrically undoped organic intermediate layer that is arranged between the electrically n-doped charge carrier injection layer on the electrode side and the electrically p-doped charge carrier injection layer on the counter electrode side. An electronic circuit arrangement with an organic zener diode and method for operating an organic zener diode are also provided. | 03-29-2012 |
20120235122 | Organic Memory Element - The invention relates to an organic memory with an electrode and a counter-electrode, comprising at least one oxide layer, an electrically undoped organic layer and an electrically doped organic layer between the electrode and the counter-electrode, wherein the oxide layer is adjacent to the electrode and the undoped organic layer. | 09-20-2012 |
20130277651 | Vertical Organic Transistor and Production Method - The invention relates to a vertical organic transistor on a substrate having an electrode ( | 10-24-2013 |
20140284567 | Vertical Organic Transistor, Circuit Configuration and Arrangement with Vertical Organic Transistors and Method of Manufacturing - The application relates to a vertical organic transistor having a layer structure on a substrate. The layer structure includes an electrode, a counter-electrode and an electronically active layer arrangement which is disposed between the electrode and the counter-electrode. The application further relates to a method for fabricating a vertical organic transistor and a circuit arrangement. | 09-25-2014 |
20140306202 | Organic Field Effect Transistor and Method for Production - The present disclosure relates to an organic field effect transistor, comprising a first electrode and a second electrode, the electrodes providing a source electrode and a drain electrode, a gate electrode, an electronically active region at least in part made of an organic material and providing a charge a carrier channel, and a gate electrode separation, comprising a doped organic semiconducting layer directly provided on the gate electrode, wherein the doped organic semiconducting layer comprises an organic matrix material and an organic dopant. Furthermore, a method for producing an organic field effect transistor is provided. | 10-16-2014 |
20140340128 | Organic Zener Diode, Electronic Circuit, and Method for Operating an Organic Zener Diode - This disclosure relates to an organic zener diode having one electrode and one counter electrode, and an organic layer arrangement formed between the electrode and the counter electrode, wherein the organic layer arrangement includes the following organic layers: an electrically n-doped charge carrier injection layer on the electrode side, made from a mixture of an organic matrix material and an n-dopant, an electrically p-doped charge carrier injection layer on the counter electrode side, made from a mixture of another organic matrix material and a p-dopant, and an electrically undoped organic intermediate layer that is arranged between the electrically n-doped charge carrier injection layer on the electrode side and the electrically p-doped charge carrier injection layer on the counter electrode side. An electronic circuit arrangement with an organic zener diode and method for operating an organic zener diode are also provided. | 11-20-2014 |