METHOD FOR PRODUCING AN ORGANIC OPTOELECTRONIC COMPONENT
In at least one embodiment of the organic optoelectronic component (1), the latter comprises a carrier (2) and a first electrode (11), which is mounted on the carrier (2). Furthermore, the component (1) contains at least one organic layer sequence (3) with at least one organic active layer (33). Fur...
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creator | INGLE, Andrew |
description | In at least one embodiment of the organic optoelectronic component (1), the latter comprises a carrier (2) and a first electrode (11), which is mounted on the carrier (2). Furthermore, the component (1) contains at least one organic layer sequence (3) with at least one organic active layer (33). Furthermore, the component (1) comprises a second electrode (22), such that the organic layer sequence (3) is located between the first electrode (11) and the second electrode (22). At least one dark region (4) and at least one bright region (5) are formed in a lateral direction. In both the dark region (4) and the bright region (5), both the first electrode (11) and the second electrode (22) and also the organic layer sequence (3) are applied to the carrier (2) in places or over the entire surface. A first reflectivity of the dark region (4) differs from a second reflectivity of the bright region (5) by at most 15 percentage points. |
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Furthermore, the component (1) contains at least one organic layer sequence (3) with at least one organic active layer (33). Furthermore, the component (1) comprises a second electrode (22), such that the organic layer sequence (3) is located between the first electrode (11) and the second electrode (22). At least one dark region (4) and at least one bright region (5) are formed in a lateral direction. In both the dark region (4) and the bright region (5), both the first electrode (11) and the second electrode (22) and also the organic layer sequence (3) are applied to the carrier (2) in places or over the entire surface. 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Furthermore, the component (1) contains at least one organic layer sequence (3) with at least one organic active layer (33). Furthermore, the component (1) comprises a second electrode (22), such that the organic layer sequence (3) is located between the first electrode (11) and the second electrode (22). At least one dark region (4) and at least one bright region (5) are formed in a lateral direction. In both the dark region (4) and the bright region (5), both the first electrode (11) and the second electrode (22) and also the organic layer sequence (3) are applied to the carrier (2) in places or over the entire surface. 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Furthermore, the component (1) contains at least one organic layer sequence (3) with at least one organic active layer (33). Furthermore, the component (1) comprises a second electrode (22), such that the organic layer sequence (3) is located between the first electrode (11) and the second electrode (22). At least one dark region (4) and at least one bright region (5) are formed in a lateral direction. In both the dark region (4) and the bright region (5), both the first electrode (11) and the second electrode (22) and also the organic layer sequence (3) are applied to the carrier (2) in places or over the entire surface. A first reflectivity of the dark region (4) differs from a second reflectivity of the bright region (5) by at most 15 percentage points.</abstract><oa>free_for_read</oa></addata></record> |
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subjects | ELECTRICITY MANUFACTURE OR TREATMENT OF NANOSTRUCTURES MEASUREMENT OR ANALYSIS OF NANOSTRUCTURES NANOTECHNOLOGY PERFORMING OPERATIONS SPECIFIC USES OR APPLICATIONS OF NANOSTRUCTURES TRANSPORTING |
title | METHOD FOR PRODUCING AN ORGANIC OPTOELECTRONIC COMPONENT |
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