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蓝色有机发光材料的开发对于实现有机发光二极管(OLED)的全彩色化具有十分重要的意义.报道了蓝色有机发光材料8-羟基喹啉硼化锂(LiBq4)的合成及提纯,研究了LiBq4的光致发光特性,并用LiBq4作为发光材料制备了蓝色有机发光器件,研究了电子传输层Alq3的厚度及空穴缓冲层CuPc对器件电流-电压和亮度-电压特性的影响.结果表明,LiBq4的光致发光峰值波长为452nm,器件ITO/PVK:TPD/LiBq4/Alq3/Al的电致发光光谱峰值波长位于475nm处,在25V工作电压下其最高亮度约为430cd/m2.但CuPc的加入加剧了器件中载流子的不平衡注入,导致器件性能恶化.通过调整Alq3的厚度,同时在Alq3和Al阴极之间加入LiF薄膜以提高电子注入效率,获得了较为理想的实验结果. 相似文献
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Accurate measurement and influence on device reliability of defect density of a light-emitting diode 下载免费PDF全文
A method of accurately measuring the defect density of a high-power light-emitting diode (LED) is proposed. The method is based on measuring the number of emitting photons in the magnitude of 105 under the injection current as weak as nA and calculating the non-radiative recombination coefficient which is related to defect density. Defect density is obtained with the self-developed measurement system, and it is demonstrated that defect density has an important influence on LED optical properties like luminous flux and internal quantum efficiency (IQE). At the same time, a batch of GaN-based LEDs with the chip size of 1 minx 1 mm are selected to conduct the accelerated aging tests lasting for 1000 hours. The results show that defect density exhibits a greater variation and is more sensitive to LED reliability than luminous flux during aging tests. Based on these results, it is concluded that for the GaN-based LED with a chip size of 1 mm ~ I mm, if its defect density is over 1017/cm3, the LED device performance suffers a serious deterioration, and finally fails. 相似文献
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同时实现路面照度与亮度均匀性的LED光源光学系统研究 总被引:1,自引:0,他引:1
对于道路照明,人眼观察到的是路面的亮度而并非路面照度。理想的路面照明应能达到照度和亮度的双重均匀性。从发光二极管(LED)道路照明中路面亮度与照度的关系出发,提出了一种基于路面反射特性同时实现路面照度与亮度均匀性的设计方法。首先根据国际照明委员会(CIE)标准给出的简化亮度系数表计算路面上所有点的亮度系数;然后利用最小二乘法对路面照度和亮度同时进行分析,得到路面最优照度分布;最后采用分离变量与最小能量块迭代结合的方法对光源以及接收面进行网格划分,根据目标照度分布进行三维自由曲面光学系统设计,得到实现路面照度均匀与亮度均匀的光学透镜。将此设计应用于双车道的C1路面,实现了路面93.47%的照度均匀度,各车道观察到的路面总亮度均匀度为86.94%和89.26%。 相似文献
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基于Mie散射理论,对大功率发光二极管封装中荧光粉的光激发、吸收、散射等作用进行数值模拟,仿真计算在不同白光色温时前后向散射光的强度比例,研究了荧光粉的颗粒大小对白光发光二极管最大光通量的影响.对保型荧光粉涂覆结构中不同直径荧光粉颗粒和不同色温时的光效进行了分析,还分析了同样色温下不同荧光粉颗粒直径、涂层的厚度对白光发光二极管出光的空间色温分布均匀性的影响.研究中所采用的器件激发光谱和发射光谱都为材料的实测光谱,而并非假设的单一光谱.研究表明:在采用保型荧光粉涂覆结构的前提下,当荧光粉颖粒直径为0.5μm时能使发光二极管光通量达到最大;荧光粉颗粒越小,发光二极管空间色温分布均匀性越好;对给定的封装结构,荧光粉涂层厚度为0.8 mm时空间色温分布均匀性最佳. 相似文献
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