通过引人不同烷基基团,采用亲核取代反应,设计与合成了3种新型9,10-二萘蒽类荧光材料,并研究了它们的紫外可见吸收、荧光发射等光物理性质.这些化合物在甲苯中均发射蓝色荧光,最大吸收和荧光发射峰分别为234~235 nm和431 nm,该类化合物具有较高的相对荧光量子效率,为ADN的1.2倍.它们具有130℃以上的玻璃化转变温度,最高的达到了179℃.以ITO/CFx/NPB/MDTBADN(EDTBADN,Tri-TBADN)/Alq3/LiF/A1为基本器件结构研究了电流密度和电压以及发光效率之间的关系.
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