半导体元件,有机晶体管,发光器件,和电子器件。
Semiconductor element, organic transistor, light-emitting device, and electronic device.
本论文分为三部分,分别为介孔材料MCM-41与半导体硫化镉的组装,MCM-41与荧光染料曙红的组装以及MCM-41与有机发光配合物铕-苯甲酸-邻菲咯啉的组装。
There are three parts in the dissertation: MCM-41 mesoporous material and semiconductor assembly, MCM-41 and fluorescence dye Eosin Y assembly, and MCM-41 and rare earth complex assembly.
研究表明有机半导体微腔效应可通过简单地调节有机发光层的厚度来实现。
Microcavity effect has been achieved simply by adjusting the thickness of organic light emitting layer.
研究表明有机半导体微腔效应可通过简单地调节有机发光层的厚度来实现。
Microcavity effect has been achieved simply by adjusting the thickness of organic light emitting layer.
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