Abstract: A method for producing a printable ink for an electronic component in which a transition metal-containing pseudohalide or chalcogenide is first complexed by a pyridine-like or thiol-like solvent, in order to improve or achieve solubility. Subsequently, by filtering and mixing with at least one solvent a printable ink is produced. The printable ink can be used to produce hole transport or electron blocking layers of electronic components.
Type:
Grant
Filed:
January 16, 2019
Date of Patent:
December 19, 2023
Assignee:
Inuru GmbH
Inventors:
Marcin Ratajczak, Maciej Woloszka, Patrick Barkowski
Abstract: A method for producing a printable ink for an electronic component in which a transition metal-containing pseudohalide or chalcogenide is first complexed by a pyridine-like or thiol-like solvent, in order to improve or achieve solubility. Subsequently, by filtering and mixing with at least one solvent a printable ink is produced. The printable ink can be used to produce hole transport or electron blocking layers of electronic components.
Type:
Application
Filed:
January 16, 2019
Publication date:
December 2, 2021
Applicant:
INURU GMBH
Inventors:
Marcin Ratajczak, Maciej Woloszka, Patrick Barkowski
Abstract: A thin, sheetlike, electronic, self-powered component including at least a display device and/or a sensor, as well as an energy source or a combination of the preceding is provided. Furthermore, the integration of this electrical component in existing products, especially printing and paper products, without the objects having to be damaged or destroyed is provided.
Abstract: A method for the contacting of electrodes with conductor tracks by means of a conductive paste and/or adhesive-coated conductive fiber composites is provided. Furthermore, an electronic component whose electrodes are connected by means of a conductive paste and/or adhesive-coated conductive fiber composites is provided.
Abstract: An optoelectronic component with a cathode and an anode and a layer system between the cathode and the anode is provided. The optoelectronic component having multiple electroactive layers, wherein the component can be produced by a method in which an inductively doped mixed layer is generated between at least two layers made of semiconductor materials.
Abstract: An optoelectronic component is provided having a cathode, an anode and a layer system between the cathode and the anode, the layer system includes electroactive layers, in particular charge-carrier injection and transport layers, and including an optically active layer, the charge-carrier injection and transport layers themselves being a diffusion barrier to water or oxygen.