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出 处:《光电子.激光》2005年第8期918-921,929,共5页Journal of Optoelectronics·Laser
基 金:国家自然科学基金资助项目(10474071)
摘 要:针对聚合物电致发光(EL)材料缺乏可用的电子型聚合物半导体材料的现状,采用无机电子型半导体材料ZnO:Zn与空穴型聚合物材料poly(2,5-bis(dodecyloxy)-phenylenevinylene)(PDDOPV)成功制备了结构为ITO/PDDOPV/ZnO:Zn/Al的有机/无机复合膜双层器件。复合膜器件的发光效率与亮度比单层器件提高了1个数量级以上,而复合膜的电流是单层器件的0.5倍。而且,聚合物/无机物复合膜器件的发光颜色随电压的增加而蓝移,其光致发光(PL)光谱也随激发波长的改变而改变,有可能形成了新的发光基团。To overcome the lack of electron type polymer which can be used in polymer electroluminescent(EL) devices, using n-type semiconducting inorganic material ZnO:Zn as electron transport layer and p-type semiconducting polymer poly(2,5-bis (dodecyloxy)- phenylenevinylene) (PDDOPV) as hole transport layer,the device covered the organic/inorganic composite film with the structure ITO/PDDOPV/ZnO:Zn/Al is successfully fabricated, The highest ratio of the luminescent efficiency of heterojunction device to that of single layer device of PDDOPV is 38.6 at 8 V, and brightness and current of heterojunction device are 19.4 times and 0.5 time of that of single layer device respectively. The results demonstrate that the insertion of ZnO:Zn layer can transport electrons and block holes that lead to the decrease of current and the increase of luminescent brightness and efficiency. A very interesting phenomenon is that the EL spectra blue-shift with the increase of applied voltage and the different PL spectra are obtained at different excitation wavelength,we attribute this phenomenon to the conformation of new light-emitting unit.
关 键 词:电致发光(EL) 复合膜 光谱蓝移 有机薄膜 发光二极管(LED)
分 类 号:TN383[电子电信—物理电子学] TN314.52
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