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Asymmetric diamines as thermally stable hole transporters in organic light emitting devices, synthesis and characterization

机译：不对称二胺作为有机发光器件中热稳定的空穴传输剂，合成和表征

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One of the major causes of device degradation in organic thin film devices is the thermal instability of the hole transporting layer. In vacuum deposited organic light emitting devices (OLEDs) this layer usually consists of a biphenyl diamine such as TPD, which is a biphenyl that has a phenyl tolyl amine moiety at both ends. TPD has a glass transition temperature (Tg) of about 60 C. Devices made with TPD show catastrophic failure when the device is heated to near the Tg. In our efforts to design thermally stable hole transporters, as well as to understand how chemical structure relates to Tg, we have synthesized a variety of asymmetric biphenyl amines. These amines consist of a triaryl amine attached at one end of a biphenyl along with a different triaryl amine at the other end of the biphenyl.

机译：有机薄膜器件中器件退化的主要原因之一是空穴传输层的热不稳定性。在真空沉积的有机发光器件（OLED）中，该层通常由联苯二胺（如TPD）组成，TPD是在两端均具有苯基甲苯基胺部分的联苯。 TPD的玻璃化转变温度（Tg）约为60℃。用TPD制成的设备在加热到Tg附近时会发生灾难性故障。在设计热稳定的空穴传输剂以及理解化学结构与Tg之间的关系的过程中，我们合成了各种不对称联苯胺。这些胺由在联苯的一端连接的三芳基胺和在联苯的另一端连接的不同的三芳基胺组成。

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《》|1996年|P.364-365|共2页
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Loy; D.E.; Koene; B.E.;
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中图分类无线电电子学、电信技术;
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Asymmetric diamines as thermally stable hole transporters in organic light emitting devices, synthesis and characterization

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