A gallium nitride LED on sapphire has a typical internal quantum efficiency of around 70%.
基于蓝宝石的氮化镓发光二极管的一般内量子效率约为70%。
The results show that the internal quantum efficiency of such structure devices can be as higher as 88%.
结果表明,这种结构器件的内量子效率可达88%。
The important measure of success is the internal quantum efficiency, which shows just how good an LED is at making light.
成功与否,很重要的一种衡量方式就是内部量子效率,即LED的造光质量。
Under electroluminescent mechanism, external quantum efficiency and internal quantum efficiency are used to evaluate the organic electroluminescent properties.
从发光机制考虑,一般常用外量子效率和内量子效率来评价。
The advantage of phosphorescent materials is that they can utilize both singlet and triplet exciton states which can reach 100% internal quantum efficiency theoretically.
磷光材料在发光过程中可以利用单线态和三线态激子,理论上内量子效率达到100%,这类材料的使用成为提高器件效率的主要途径之一。
The advantage of phosphorescent materials is that they can utilize both singlet and triplet exciton states which can reach 100% internal quantum efficiency theoretically.
磷光材料在发光过程中可以利用单线态和三线态激子,理论上内量子效率达到100%,这类材料的使用成为提高器件效率的主要途径之一。
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