具有发光率高,显色指数高,节能优良性能。
然而,如果光学集中器108被设计用于有限的角度范围,那么仍可维持发光装置102的辐射率。
However, if the optical concentrator 108 is designed for a limited Angle acceptance, the radiance of the light emitting device 102 can still be maintained.
美国的科学家最近在基因上改造了蚊子使它们的眼睛能够在黑暗中发光,而且不会携带疟疾,相比于它们的野生同类则有了更高的生存率。
US scientists have genetically engineered mosquitoes with eyes that glow in the dark and do not carry malaria that have a better survival rate than their wild counterparts.
半导体器件,半导体器件制造方法,高载流子迁移率晶体管和发光器件。
Semiconductor device, semiconductor device manufacturing method, high carrier mobility transistor and light emitting device.
尤其是这些有机金属纳米片在红色到计划外区发光,而他们的电子电导率可以用可见光辐照来调整。
Notably, these organometallic nanosheets luminesce in the red to near infrared region, and their electronic conductivity can be modulated by visible-light irradiation.
用X射线衍射(XRD)、扫描电镜(SEM)、高分辨率透射电镜(HRTEM)和光致发光光谱(PL)对生成的产物进行了分析。
X ray diffraction (XRD), scanning electron microscopy (SEM), high resolution transmission electron microscopy (HRTEM), and photoluminescence (PL) are used to analyze the synthesized GaN nanorods.
有机发光二极管(OLED)发光效率很大程度上受到器件中高折射率材料(ITO/有机物)对导波光能量的制约。
The extraction efficiency of organic light-emitting diode(OLED) is restrained by the high fraction of energy of the guided wave in the high-index materials(ITO/organic).
方法:采用现代生物化学发光技术,检测阿里红多糖对O2、H2O2的清除作用及对多种活性氧的总和清除率。
Methods: Chemiluminescence methods were used to assess scavenging effects of FOPS on the O2 , H2O2 and other oxygen free radicals.
所以我们得出结论,虽然生物发光信号可能会增加捕食者蜘蛛的攻击率,但是它们也会促使捕食者知道不可口的猎物。
We conclude that, although bioluminescent flash signals may increase attack rates by predatory jumping spiders, they may also facilitate learning about unpalatable prey.
氧化铟锡(ito)膜的电阻率及表面粗糙度将影响有机电致发光器件(OLED)的发光效率及其使用寿命。
The resistivity and surface roughness of Indium tin oxide (ITO) films will affect the light-emitting efficiency and lifetime of the organic light-emitting diodes (OLED).
用分光光度计和激光拉曼光谱仪分别测定了样品的可见光透过率和发光强度。
Spectrophotometer and Laser Roman Spectrometer have been used for determining the intensity of transmission and emission.
经分析选取了激发光强、覆盖率和物镜的数值孔径作为实验研究对象。
After analyzed, the exciting laser intensity, the coverage rate and the numerical aperture of objectives are selected for experimental research.
它们因具有尺寸可调的光学性质和高的荧光量子产率而成为用于制备发光二极管、激光器和生物荧光标记物的新颖理想的光学材料。
The size-tunable optical properties and high photoluminescence quantum yields have made QDs a novel and ideal optical material for light-emitting diodes, lasers, and biological fluorescent labels.
化学发光试剂是化学发光分析的基础,开发和使用发光量子产率高的试剂,对提高化学发光分析的灵敏度和扩大其应用范围具有十分重要的意义。
The chemiluminescent reagent is the basis of CL analysis and its properties are very important for increasing the sensitivity and extending the application of this method.
本发明提供一种半导体发光元件的制造方法,使蓝宝石晶片形成芯片时,能够以极高的成品率正确地形成芯片。
Provided is a method for manufacturing a semiconductor light emitting element, by which a sapphire wafer can be divided into chips accurately at an extremely high yield.
本发明的封装材料组成物具有高折射率,可应用于高效能固态发光组件,提高出光效 率。
The encapsulation material composition has high refractive index, can be applied to a high-efficient sold luminous element and improves light emergence efficiency.
随着LED芯片发光效率和散热技术的快速提升,显示屏分辨率越来越高,目前填充因子系数已达到10%。
With the rapid promotion of the LED chip light-emitting efficiency and heat dissipation technology, the fill factor coefficient of the LED display has been up to 10%.
同时,孔隙率和光致发光谱随腐蚀时间的变化趋势证实了提高孔隙率是提高多孔硅发光强度的必要条件。
Meanwhile, the trend of porosity and PL spectrum with changing etching time confirm that it is necessary for improving PL intensity to increase porosity.
同时,孔隙率和光致发光谱随腐蚀时间的变化趋势证实了提高孔隙率是提高多孔硅发光强度的必要条件。
Meanwhile, the trend of porosity and PL spectrum with changing etching time confirm that it is necessary for improving PL intensity to increase porosity.
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