Organic light emitting device with reverse intersystem crossing light emitting molecules
    7.
    发明授权
    Organic light emitting device with reverse intersystem crossing light emitting molecules 失效
    具有反向系统交叉发光分子的有机发光器件

    公开(公告)号:US07034454B2

    公开(公告)日:2006-04-25

    申请号:US10733294

    申请日:2003-12-12

    IPC分类号: H05B33/00

    摘要: There is provided an organic light emitting device to break through the limit of 25% of internal quantum efficiency and 5% of external quantum efficiency while using singlet luminescence. Specifically provided is an organic light emitting device comprising an anode, an organic layer and a cathode, wherein light-emitting molecules present in an emissive layer which is at least a part of the organic layer and responsible for luminescence by charge injection effect transition from a triplet excited state having an energy level higher than a lowest excited singlet state to a singlet excited state and effect fluorescent emission in a fluorescence quantum yield of 60% or more in the same state as existing in the emissive layer, and wherein the emissive layer comprises the light-emitting molecules as a main component in an amount of 50 wt % or more, or is doped with the light-emitting molecules at a high concentration of 7 wt % or more, or is a layer in which the light-emitting molecules are excitable by direct trapping of electrons and holes has enabled to break through the limit of 25% of internal quantum efficiency and 5% of external quantum efficiency while using singlet luminescence.

    摘要翻译: 提供了一种有机发光装置,在使用单线态发光的同时,突破了25%的内量子效率和5%的外量子效率。 具体提供的是包括阳极,有机层和阴极的有机发光器件,其中存在于发光层中的发光分子是发光层的至少一部分,并且通过电荷注入效应从 三重态激发态具有比最低激发单态更高于单重激发态的能级,并且在与发射层中存在的相同状态下以60%以上的荧光量子产率实现荧光发射,并且其中发射层包含 作为主成分的发光分子为50重量%以上,或以7重量%以上的高浓度掺杂发光分子,或者是发光分子 可以通过电子的直接捕获来激发,并且使用单峰可以突破25%内部量子效率和5%外部量子效率的极限 发光。

    Organic electronic device and nonlinear device

    公开(公告)号:US06636001B2

    公开(公告)日:2003-10-21

    申请号:US10029931

    申请日:2001-12-31

    IPC分类号: H05B3312

    摘要: An organic electronic device functioning as a flat EL display panel is provided by forming an organic EL element and a nonlinear device as a drive means for controlling a current supplied to the EL device on a common substrate. The nonlinear device has a structure including a first organic layer and a second organic layer each comprising an organic material, and at least one metal layer principally comprising a metal element and sandwiched between the first and second organic layers so as to flow at least a part of current through the metal layer between the first and second organic layers sandwiching the metal layer. The nonlinear device having a function comparable to a conventional organic transistor or diode can be formed by using not a special organic material having a remarkably high mobility but an organic material selected from a broader class of materials.