Novel organic composites based on n-substituted quinacridone derivatives for molecular organic light-emitting diodes

机译：基于N-取代的喹吖啶酮衍生物的新型有机复合材料，用于分子有机发光二极管

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Molecular organic light emitting diodes (MOLEDs) where the active emitting layer has been doped with quinacridones (DHQ), ethyl (DEQ) and benzyl (DBQ) N-substituted quinacridones have been fabricated by high vacuum vapor deposition. These very bright and highly efficient MODLEDs are compared in terms of optimum dopant concentration, spectral characteristics and device efficiencies. DHQ, DEQ and DBQ aggregates formed by plane to plane stacking seem to be responsible for luminescence quenching observed at high dopant concentration. Intermolecular hydrogen bonding between the N-H moiety and the carbonyl oxygen does not play a major role in the quenching process for DHQ-doped AlQ_3 composites.

机译：通过高真空气相沉积制造活性发光层已掺杂喹吖啶酮（DHQ），乙基（DEQ）和苄基（DBQ）N-取代的喹吖啶酮的分子有机发光二极管（莫尔的莫尔）。在最佳掺杂剂浓度，光谱特性和器件效率方面比较这些非常明亮和高效的模拟。通过平面形成的DHQ，DEQ和DBQ聚集体形成为平面堆叠，似乎负责在高掺杂剂浓度下观察到的发光猝灭。 N-H部分和羰基氧之间的分子间氢键合在DHQ掺杂的ALQ_3复合材料的淬火过程中不会发挥重要作用。

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《International conference on frontiers of polymers and advanced materials》|1998年||共8页
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Hideyuki Murata; Charles D. Merritt; Zakya H. Kafafi;
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中图分类高分子化学（高聚物）;
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Novel organic composites based on n-substituted quinacridone derivatives for molecular organic light-emitting diodes

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