排序方式: 共有5条查询结果,搜索用时 0 毫秒
1
1.
八羟基喹啉镉薄膜制备及其光学特性 总被引:1,自引:0,他引:1
用真空蒸镀方法,在玻璃衬底上制备了衬底温度不同的八羟基喹啉镉薄膜.XRD分析表明,八羟基喹啉镉薄膜呈多晶态,且衬底温度越高,衍射峰越强,薄膜的结晶性能逐渐变好,结晶晶粒尺度也越大.AFM研究表明,衬底温度升高,薄膜表面形貌越均匀有序,质量变好.MM-16相调制型椭圆偏振光谱仪研究发现,衬底温度升高导致反蒸发增强,薄膜生长速率减小,随着入射光波长的增加,薄膜的折射率和消光系数逐渐减小.随着衬底温度升高,因薄膜晶粒尺度增大,折射率和消光系数也增大;并给出了它们的变化范围. 相似文献
2.
3.
用真空蒸镀方法,在玻璃衬底上制备了衬底温度不同的八羟基喹啉镉薄膜.XRD分析表明,八羟基喹啉镉薄膜呈多晶态,且衬底温度越高,衍射峰越强,薄膜的结晶性能逐渐变好,结晶晶粒尺度也越大.AFM研究表明,衬底温度升高,薄膜表面形貌越均匀有序,质量变好.MM-16相调制型椭圆偏振光谱仪研究发现,衬底温度升高导致反蒸发增强,薄膜生长速率减小,随着入射光波长的增加,薄膜的折射率和消光系数逐渐减小.随着衬底温度升高,因薄膜晶粒尺度增大,折射率和消光系数也增大;并给出了它们的变化范围. 相似文献
4.
By utilizing a two-step process to express the charge generation and separation mechanism of the transition metal oxides (TMOs) interconnector layer, a numerical model was proposed for tandem organic light emitting diodes (OLEDs) with a TMOs thin film as the interconnector layer. This model is valid not only for an n-type TMOs interconnector layer, but also for a p-type TMOs interconnector layer. Based on this model, the influences of different carrier injection barriers at the interface of the electrode/organic layer on the charge generation ability of interconnector layers were studied. In addition, the distribution characteristics of carrier concentration, electric field intensity and potential in the device under different carrier injection barriers were studied. The results show that when keeping one carrier injection barrier as a constant while increasing another carrier injection barrier, carri- ers injected into the device were gradually decreased, the carrier generation ability of the interconnector layer was gradually reduced, the electric field intensity at the interface of the organic/electrode was gradually enhanced, and the electric field distribution became nearly linear: the voltage drops in two light units gradually became the same. Meanwhile, the carrier injection ability decreased as another carrier injection barrier increased. The simulation re- sults agree with the experimental data. The obtained results can provide us with a deep understanding of the work mechanism of TMOs-based tandem OLEDs. 相似文献
5.
1