并对样品的发光机理作了初步探讨。
The photoluminescence mechanism for our sample is also discussed.
对样品的发光机理作了初步探讨。
The photoluminescence mechanism for our samples is also discussed.
讨论了这种涂料的发光机理、发光时间。
The luminescence mechanism and luminescence time is also discussed in this paper.
本文主要侧重于研究器件结构、特性及发光机理等方面。
In this dissertation, main study is on device structure, performance and luminescence mechanism etc.
本文介绍了PS的光致发光机理与特性研究的一些最新进展。
The paper presents recent advances in the research on mechanism and properties of PS photoluminescence.
第二章对荧光薄膜的发光机理、制备方法及测试手段等给以系统阐述;
The luminescent mechanism and the methods of preparing and testing luminescent thin films are discussed in Chap.
研究结果有助于揭示其发光机理,为提高发光效率提供了有益的启示。
It helps to bring to light its luminescent mechanism and to improve light emitting efficiency.
同时本文对已有报道的荧光碳纳米颗粒的荧光发光机理进行了初步解释。
The thesis also tries to explain the mechanism of fluorescence of the fluorescent carbon nanoparticles.
空化泡内气体对空化泡的产生、生长、崩溃及其发光机理研究有重要意义。
The gas in the cavitation bubble has important significance for the producing, growing, collapsing, and lighting mechanism research of the bubble.
介绍了有机发光器件(OLED)的研究历程、结构、发光机理和研究的热点。
The research course, structure, working principle and some focus problems of Organic Light-Emitting Diodes (OLED) are introduced.
文章还考察了电学参数和溶解氧对ITO玻璃上鲁米诺ecl的影响,并探讨了发光机理。
The influences of the electric parameters and the dissolved oxygen on luminol's ECL on the ITO glass, and the mechanism were also studied in the present paper.
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.
分析了这些可见荧光产生的原因,指出它不同于红外荧光的发光机理,是一种离子对的合作吸收和发射。
The cause of visible fluorescence were analyzed. The mechanism of visible fluorescent is different to infrared fluorescent, it is cooperative absorption and emission of ion pairs.
论文先回顾了有机电致发光器件的历史进展、介绍了器件结构、有机材料、发光机理、研究热点及应用前景。
At first, the thesis reviewed the histories and described structures, organic materials, hotspot, foreground of organic Light-Emitting Devices.
近年来,电致发光聚合物的分子设计、合成以及聚合物发光机理和EL器件的研究成为最具有活力的领域之一。
The design and synthesis of electroluminescent polymers, luminescence mechanism and the study of el devices have been became one of the most active research fields in recent years.
电致发光屏发光机理是在电场的作用下电子在发光层内高速运动,激活发光材料原子使其发生能级跃迁而发光。
The luminescent principle of EL panel is that electrons move at highs peed in luminescent layer to activate atoms of luminescent material, which make energy transition to emit light.
此外,探讨了该抑制化学发光体系的作用机理。
Moreover, the reaction mechanism of the chemiluminescence system has been primarily discussed.
对该化学发光反应机理进行了讨论。
同时,对化学发光反应的机理进行了初步探讨。
Meanwhile, the chemiluminescence reaction mechanism was also discussed briefly.
作者讨论了该新体系化学发光的可能机理。
And the authors have supplied the possible mechanism of the chemiluminescence in the system.
在对有关反应的动力学性质、化学发光光谱、紫外可见光谱及其它一系列实验研究的基础上,提出了可能的化学发光反应机理。
A possible reaction mechanism was proposed based upon the studies on the CL kinetic characteristics, the UV-visible spectra, the CL spectra and other experiments.
基于环境中碳氧活性氧的化学发光行为,对其产生化学发光的机理进行了研究和探讨。
Based on the chemiluminescence of carbonate reactive oxygen species in the environment, the chemiluminescent mechanism was investigated.
并对发光反应的机理作了简单的探讨,通过测试说明化学发光反应主要发生在醇氧化成醛这一步。
The mechanism of such chemiluminescence is discussed in brief and is shown that the chemiluminescence occurs in the step of alcohol oxidized into aldehyde.
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).
本文对多孔硅的结构,各种发光模型和不同的形成机理进行了讨论。
In this paper, some aspects of the porous silicon are reviewed. The structures, various models of light emission and different mechanisms of porous silicon formation are discussed.
介绍了有机电致发光器件的优点,器件的几种结构,有机电致发光的机理,以及评价有机电致发光器件的一些主要参数。
In this paper, the advantages, structures and luminescence mechanisms of the OLED were introduced, and several parameters to evaluate the OLED were presented.
生物超微弱发光的产生机理是生物光子学研究领域的基本课题。
The mechanism of biophoton emission is a basic subject of ultra weak biophoton emission research.
本文阐述了纳米硅-氧化硅光致发光的意义和机理,还分别介绍了目前各种用于制备纳米硅-氧化硅的方法和研究现状,最后讨论了今后的发展趋势。
The paper reviews the significance, the mechanism of photoluminescence, the techniques to prepare si nanocrystals in SiO_x thin films. The future development is also discussed.
根据有机发光二极管oled器件的发光特性,分析了OLED器件实现灰度级显示的机理。
We have analyzed the working process of the OLED driving chip. Analysed the mechanism of realizing gray-scale on OLED panel based on OLED panel luminescence characteristic.
根据有机发光二极管oled器件的发光特性,分析了OLED器件实现灰度级显示的机理。
We have analyzed the working process of the OLED driving chip. Analysed the mechanism of realizing gray-scale on OLED panel based on OLED panel luminescence characteristic.
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