制作了一种以Al为金属反射膜和金属半透膜的微腔有机电致发光器件(OLED)。器件结构是：Al/MoO3/NPB/ADN∶TBPe∶DCJTB/Alq3/LiF/Al。设计了五种厚度的金属Al阳极半透膜器件, Al半透膜的厚度依次为：12nm, 13nm, 14nm, 15nm, 16nm。通过调节阳极Al半透膜的厚度, 改变微腔的光学长度, 研究微腔效应对器件性能的影响。利用Al半透膜阳极厚度的变化, 调整微腔器件的光学长度, 发光效率和色纯度也随之变化。当Al半透膜为12nm时, 器件在11V获得最高亮度3381cd/m2, 最高效率为2.01cd/A, 色坐标为(0.33,0.39)。实验表明, 合理利用微腔效应, 可提高以Al为阳极器件的色纯度, 并保持一定的发光效率。

A microcavity organic lightemitting diode (OLED) device with the structure of Al/ MoO3/ NPB/ ADN∶TBPe∶DCJTB/ Alq3/ LiF/ Al is fabricated using Al as the metal reflective film and metal semipermeable membrane. Five kinds of devices with Al anode semipermeable membrane designed for different film thicknesses as: 12nm, 13nm, 14nm, 15nm, 16nm, and the effects on the performance of OLED microcavity are researched. The results show that both the luminous efficiency and color purity change with the optical length of the microcavity. When the thickness of Al semipermeable membrane is 12nm, the device can obtain the maximum brightness of 3381cd/m2, highest efficiency of 2.01CD/A, and color coordinates of (0.33, 0.39) at 11V. Therefore, using microcavity effect reasonable can improve the color purity of the device and maintain a certain luminous efficiency.