高分子发光材料有着重要的理论研究意义和实际应用价值。
Polymer luminescence research is of great theoretical and practical significance.
制备出发光强度高、成本低、加工性能优良的稀土高分子发光材料有助于解决这些问题。
The manufacture of the rare earth polymer luminescence materials with high luminescence intensity, low cost and good process property will be helpful to solve these problems.
综述了以有机小分子发光材料为基础的红绿蓝和白光有机发光二极管的结构、发光性质,简要介绍了其应用前景和发展趋势。
Recent progress about structures and properties of organic light-emitting diodes (OLEDs) based on small molecular materials with emphasis on devices relating to RGB and white was reviewed.
本文中制备的具有梯度结构的聚合物发光器件发出光的强度,比用旋涂法和真空喷雾法所制备的单纯高分子发光器件和混合结构的高分子发光器件更高。
Compared to PLEDs composed of pure polymer or of blend active layers prepared by spin coating and vacuum spray methods, our PLED composed of gradient structure emitted brighter light.
当电子在电场加速时,电极就会获得能量,并在与气体原子和分子相撞时把能量传递给它们,这样就会产生发光的等离子气体。
As electrons accelerate in the electric field, they gain energy that they pass on to the atoms and molecules of the gas as they collide with them, creating a glowing plasma.
一些公司,比如像索尼,正在关注一些由薄片状的有机分子组成的有机发光二极管,这些二极管能根据电流来相应的发出光。
Some firms, such as Sony, are looking at organic light-emitting diodes composed of thin films of organic molecules which generate light in response to an electric current.
最简单的发光反应需要一种叫做荧光素有机分子,在荧光素酶的帮助下,进行被氧气氧化的氧化反应。
The simplest light-producing reactions require an organic molecule, known as a luciferin, to be oxidised by oxygen, a process that is helped along by an enzyme known as luciferase.
遗传学家及艺术家亨特·科尔(Hunter Cole)使用具有生物发光性的细菌绘制出这样一幅令人惊叹的DNA分子演示图。
Geneticist and artist Hunter Cole has produced an incredible rendition of DNA molecules using bioluminescent bacteria.
密苏里州大学的PeterHandel认为如果这样的话,水分子就能创造出电磁驻波从而使得周围的空气发光。
According to Peter Handel of the University of Missourithat can, in the right circumstances, create a standing wave of electromagneticenergy which makes the surrounding air glow.
当电流通过两个电极时高分子材料便会发光。
When a current is passed between these electrodes, the polymer gives off light.
荧光物质分子被化学反应激发后发出的光被称为化学发光。
ChemiLuntinescence (CL) is the emission of light after excitation of a fluorescent molecule by a chemical reaction.
在这片离地球1500光年远的广大星际分子云的边缘,有一些发光的云气包围著年轻亮星。
The Nebula's glowing gas surrounds hot young stars at the edge of an immense interstellar molecular cloud only 1500 light-years away.
理论上研究发现,通过引入含不同密度分布的发光分子可以探测到光子晶体的全态密度的部分细节甚至全部信息。
It is found, theoretically, that using different number density distributions of luminescent molecules within the PC, one can probe the partial information or even all of the total DOS in the PC.
相比之下,即使特百惠派对都开始显得像是闪闪发光的知识分子沙龙。
Even the Tupperware party starts to look a glittering intellectual salon by comparison.
然而,隧道结中的分子由于离金属表面很近,其发光受到荧光淬灭作用的强烈制约。
However, light emission from molecules near metals is challenging due to the fluorescence quenching effect.
分子态氧对发光的猝灭作用,固有地限制着发光分析优良分析特性的实现,特别对液体样品。
Quenching of luminescence by molecular oxygen is an inherent limitation in fluorescence and phosphorescence analysis, especially for liquid sample.
化学发光技术在生物技术、分子生物学、药学、临床和环境等许多领域都获得了广泛的应用,有关化学发光的评论文章近年来也有许多报道。
Chemiluminescence (cl) has been exploited with a wide range of applications in different fields, such as biotechnology, pharmacology, molecular biology, and clinical and environmental chemistries.
彗星气态彗发里的分子被阳光激发而发光。
The molecules of the comet's gaseous coma fluoresce in sunlight.
血红蛋白里的铁元素会和发光氨里的化学发生反应。意思就是说它里面的原子会重组并形成新的分子。
The iron in hemoglobin causes the chemicals in luminol to react, meaning that their atoms rearrange to form new molecules.
近年来,分子生物学家门从中提取出了很多种荧光蛋白及它们的基因,并用基因工程建立了一系列具有不同发光特性的荧光蛋白。
Over recent years, molecular biologists have isolated a number of FPs and their genes, and used them to create genetically engineered variant FPs with particular light-emission characteristics.
通过紫外光谱与荧光光谱的测定,较充分地研究了稀土高分子配合物光致发光的光物理过程。
The photophysical process of photoluminescence of the complexes was discussed more fully by UV spectra and fluorescence spectra.
扭曲构象为较好的发光构象。分子受激后,平面构象可经旋转松弛到扭曲构象。
The twisted conformation was favorable for luminescence, and the excited coplanar molecule could relax to the twisted conformation.
电致发光(EL)是一种研究聚合物中陷阱特性、空间电荷的存贮和输运特性、聚合物的结构转变和分子运动的重要工具,现已获得广泛应用。
Electroluminescence (el) has been widely used as a tool to study the trap character, the charge storage and transport, the structure transformation and molecular motion in insulating polymers.
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.
采用光谱解析法和分子轨道理论分析了匀浆中的发光中心。
This paper reported the study of the electronic spectrum of the tissue homogenate of human stomach, and quantitatively investigated the center of luminescence.
研究了掺杂有机薄膜发光中基质分子与掺杂分子间能量传递和电荷转移的定量关系。
The quantitative relations of the energy and charge transfer between substrate molecular and dopant in doped organic thin films were investigated.
综述了最近几年来,功能化富勒烯有机小分子、共轭高分子和金属配合物发光材料的国内外研究状况及应用。
The recent progress and application of functional fullerene organic luminescent materials , including low molecules, conjugated polymers and rare metal complexes , are reviewed in this paper.
本研究工作制备了两类新型的高分子化8-羟基喹啉金属配合物,并对它们的发光性能作了初步研究。
Two kinds of novel polymeric metal complex derived from 8-Hydroxyquinoline were prepared in this research work, of which the luminescent property was initially discussed.
本研究工作制备了两类新型的高分子化8-羟基喹啉金属配合物,并对它们的发光性能作了初步研究。
Two kinds of novel polymeric metal complex derived from 8-Hydroxyquinoline were prepared in this research work, of which the luminescent property was initially discussed.
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