摘要 |
#CMT# #/CMT# The component has two electrodes such as indium tin oxide anode (2) and cathode (4), arranged between a substrate base and a cover glass (5). An organic LED stack (3) comprises a layer made of an organic material. A getter layer (6) comprises a dry material and a thermally conductive material, and a thermally conductive layer (7). The getter layer and the thermally conductive layer are thermally coupled to one another, where the getter layer exhibits a thickness of 10 nanometer to 5000 micrometer. A metallic material is distributed in form of metallic particles in the dry material. #CMT# : #/CMT# Independent claims are also included for the following: (1) a method for protecting an organic electronic component (2) a method for visualizing of structures, symbols and/or characters by an organic LED. #CMT#USE : #/CMT# Flexibly bent organic electronic component e.g. organic LED and organic solar cell, for use in a display e.g. color display and radiation intensity display, for visualizing structures, symbols and/or characters (all claimed). #CMT#ADVANTAGE : #/CMT# The two electrodes are arranged between the substrate base and cover, and the dry middle layer and thermally conductive layer are thermally coupled to one another, thus extending life span of the electronic component in a simple and economical manner, improving the cooling of the organic electronic component, and achieving light effects in a simple and flexible manner. #CMT#DESCRIPTION OF DRAWINGS : #/CMT# The drawing shows a sectional view of an organic electronic component in form of an organic LED.'(Drawing includes non-English language text)' 2 : Indium tin oxide anode 3 : Organic LED stack 4 : Cathode 5 : Cover glass 6 : Getter layer 7 : Thermally conductive layer #CMT#METALLURGY : #/CMT# The thermally conductive material consists of nickel, copper, silver, aluminum, calcium, magnesium, zinc, tin, iron, and gold. The dry material consists of Zeolite and calcium oxide. |