例句與造句

1. Recently , organic semiconductor light emitting has attracted a great deal of attention due to future applications in large area light emitting devices and displays
   用有機半導體材料制備的發(fā)光器件具有高效率、高亮度、全彩色、低成本等突出優(yōu)點，在大屏幕固體平面顯示等方面有廣闊的應(yīng)用前景。
2. The basic organic light emitting device ( oled ) consists of a number of ultra - thin organic layers between two electrode . under low applied voltage , the recombination of carriers coming from cathode and anode can produce intense light output
   有機電致發(fā)光器件( oled )采用有機薄膜作為發(fā)光層,能夠在低驅(qū)動電壓下,產(chǎn)生強烈的光電效應(yīng)。
3. Due to the large exciton binding energy of 60mev , which ensures the high efficient excitonic emission at room temperature , it is regarded as one of the most promising materials for fabricating efficient ultraviolet ( uv ) and blue light emitting devices
   由于氧化鋅具有較高的激子束縛能( 60mev ) ，保證了其在室溫下較強的激子發(fā)光，因而被認為是制作紫外半導體激光器的合適材料。
4. This dissertation focuses on the driving circuit of oled ( organic light emitting device ) . first we introduce the emitting theory and the structure of oled , and then we introduce the photo electricity characteristic of oled , analyze the driving requirement
   論文首先介紹了有機電致發(fā)光顯示器的發(fā)光機理和器件結(jié)構(gòu),接著從它的光電特性出發(fā),分析了其驅(qū)動要求,闡述了電流驅(qū)動和電壓驅(qū)動、交流驅(qū)動和直流驅(qū)動、無源驅(qū)動和有源驅(qū)動各自的特點。
5. However , fc derivatives could not be used as functional molecules directly in many high - tech fields such as nonlinear optics , light emitting devices , sensors and so on . only when they are organized with some structure or dispersed homogeneously into solid matrix to form functional material , their function could be fully brought into play
   在許多領(lǐng)域，如非線性光學、發(fā)光器件、傳感器等，二茂鐵衍生物并不能直接應(yīng)用，但將具有光電活性的二茂鐵基團引入到兩親分子中，形成特定性能的成膜分子，就能真正發(fā)揮其作用。
6. It's difficult to find light emitting devices in a sentence. 用light emitting devices造句挺難的
7. Due to the large exciton binding energy of 60mev , which ensures the high efficient excitonic emission at room temperature , it is regarded as one of the most promising materials for fabricating efficient ultraviolet ( uv ) and blue light emitting devices . since the first observation of the stimulated ultraviolet emission at room temperature , zno has become another hotspot in the region of uv light emitting researching
   氧化鋅在室溫條件下具有較高的激子束縛能( 60mev ) ，保證了其在室溫下較強的激子發(fā)光，是制作紫外光電子器件的合適材料，自1997年首次發(fā)現(xiàn)zno室溫紫外受激發(fā)射以來， zno研究已成為繼gan之后紫外發(fā)射材料研究的又一研究熱點。
8. Due to the large exciton binding energy of 60mev , which ensures the high efficient excitonic emission at room temperature , it is regarded as one of the most promising materials for fabricating efficient ultraviolet ( uv ) and blue light emitting devices . since the first observation of the stimulated ultraviolet emission at room temperature , zno has become another hotspot in the region of uv light emitting researching
   由于氧化鋅在室溫條件下具有較高的激子束縛能( 60mev ) ，保證了其在室溫下較強的激子發(fā)光，因而被認為是制作紫外半導體激光器的合適材料，自1997年首次發(fā)現(xiàn)zno室溫紫外受激發(fā)射以來， zno研究已成為繼gan之后紫外發(fā)射材料研究的又一研究熱點。