薄膜电致发光显示是平板显示的主要技术之一。
Thin film electroluminescent display is one of the main flat panel displays.
提出了一种提高金刚石薄膜电致发光器件发光强度的方法。
The method to increase the intensity of the blue light emission from the diamond films devices is suggested.
有机、聚合物薄膜电致发光是近几年来国际上一个研究热点。
Organic and polymer thin film electroluminescent devices have become a fascinating field in recent years.
提出硫空位的存在是阻碍获得高亮度蓝色薄膜电致发光器件的关键。
We proposed that, because of the high scatter rate, sulphur vacancy is the main obstacle on the achieve of high brightness blue thin film electroluminescence.
采用新合成的有机材料硅烷衍生物作为发光物质制备了发蓝、绿光的薄膜电致发光器件。
The organic thin film electroluminescence device with blue green color using new organic material, silicon alkyl derivative (SCS SiH), was fabricated.
薄膜电致发光器件在强电场作用下,缺陷和杂质电离产生的局域化电场使得电场分布不均匀。
Under strong electric field, impurities and defects in phosphor of TFELD were ionized, which conduced to local electric field.
利用分波法计算了薄膜电致发光器件中硫空位对电子的散射速率,并将其与其它散射机制进行了比较。
The scatter rate of sulphur vacancy in thin film electroluminescent device is calculated through phase shift analysis. The results are compared with other scatter mechanisms.
报道了金刚石薄膜的蓝区电致发光现象,总结了几种有关金刚石薄膜蓝区发光“A”带的发光机理。
The phenomenon of the blue range electroluminescence of the boron doped diamond thin films is reported, and the several light emission mechanisms on band A are summarized.
用TPD作空穴传输层、8-羟基喹啉锌作发光层,制备了有机薄膜器件,测量了其电致发光特性。
The electroluminescent characteristics are measured of the organic thin film device using TPD as the hole transporting layer and 8-hydroxyquinoline zinc as the emitting layer.
有机薄膜层的结晶是有机电致发光器件衰减的主要机理之一。
Crystallization of organic thin films is one of the main degradation mechanisms of organic light emitting diodes (OLEDs).
这种柔性电致发光装置可应用于电致发光薄膜按键或电致发光小键盘。
The flexible EL device is applicable to EL dome sheets or EL keypads.
这种柔性电致发光装置可应用于电致发光薄膜按键或电致发光小键盘。
The flexible EL device is applicable to EL dome sheets or EL keypads.
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