A charge transport layer of an organic light emitting diode contains the conducting polymer and the reactant of the unsaturated compound.
一种有机发光二极管,其电荷输送层中含有导电性聚合物和不饱和化合物的反应物。
The conducting polymer, as a new cross-subjects research field, has been widely investigated by physical scientists, chemists and material scientists all over the world.
导电聚合物作为新型多学科交叉的研究领域,备受世界范围内物理学、化学和材料科学家的关注。
By controlling the relative humidity in the atmosphere and concentration of the conducting polymer respectively, different morphology of the honeycomb structure can be obtained.
通过控制溶液的浓度和环境的相对湿度,得到了不同结构的有序多孔薄膜。
Mixing the polymer with commercially available carbon nanotubes in a solvent separates semiconducting tubes from conducting tubes.
把这种聚合物和碳纳米管在一种溶剂中混合,可以将半导体管和导体管分离开。
Bao's group USES a polymer that selectively sorts the mixture by wrapping around semiconducting nanotubes, and not conducting nanotubes.
鲍哲南团队使用了一种聚合物,通过环绕半导体纳米管和非导电纳米管混合物,能够有选择地将它们分类。
So instead, the team devised a way to coat the conducting nanotubes in a polymer to protect the electric charge and allow the ink to be purely semiconducting.
所以,研究组成员想出了一个办法,将导电纳米管覆在一聚合体上,这样不仅可以保护电荷,而且还能使油墨完全呈半导体性质。
The photoelectric characteristics of conducting polymer MEH - PPV film were studied using contact potential difference ( CPD ) method.
用接触电位差(CPD )方法研究了导电聚合物MEH-PPV薄膜的光电特性。
It is important that the theoretical study works of electricity, magnetics and optics for conducting polymer materials.
研究导电高分子材料的电学、磁学和光学等方面的理论日显重要。
The photoelectric characteristics of conducting polymer MEH-PPV thin film were studied using contact potential difference (CPD) method.
用接触电位差(CPD)方法研究了导电聚合物meh - PPV薄膜的光电特性。
Pyrrole has a very promising future in the field of conducting polymer, via a proper molecule design, some derivatives that have various purposes could be achieved by chemical synthesis.
吡咯在导电聚合物领域有着良好的应用前景,通过恰当的分子设计可以制备出具有广泛用途的衍生物。
Conducting polymer nanocomposites are very important inclusions in the list of novel nanometer materials and composites.
导电高分子纳米复合材料是纳米材料研究中一个重要部分。
Polyaniline is one of the research focuses in the area of conducting polymer in recent years. This article introduced generally several kinds of synthesis methods and applications.
聚苯胺是近年来导电高分子领域的研究热点之一。本文概述了聚苯胺的几种主要合成方法及应用研究。
The ion conducting models for polymer electrolytes are illustrated. Additionally, the recent research progresses in polymer electrolytes for lithium ion batteries are introduced.
综述了锂离子电池聚合物电解质的导电模型,并介绍了近年来对聚合物导电机理的研究。
Polyaniline is one of the research focuses in the area of conducting polymer in recent years. This paper introduces polyaniline synthesis, modification method, conducting mechanism and applications.
聚苯胺是近年导电高分子材料领域的研究热点之一。主要介绍了聚苯胺的合成及改性方法,并对它的导电机理和应用作了简要介绍。
The photoluminescence spectra of conducting polymer P3MT with different doping densities at different excitation intensities and temperatures are reported.
本文报道了导电聚合物p3mt的荧光光谱及其随样品掺杂浓度、激光强度和温度的变化。
The recent trend of conducting polymer is also pointed out.
并指出了导电高分子材料目前的研究趋势。
The experimental results showed that these conducting polymer films have good mechanical characterizations.
实验结果表明,聚噻吩和聚吡咯材料具有较好的力学性能。
On this basis, the methods of improving comprehensive properties, especially thermal conductivity, of the thermal-conducting polymer composite were discussed.
在此基础上探讨了优化导热高分子复合材料综合性能的方法。
According to the model of PPD as a conducting polymer, the kinetics of benzoquinone reduction was analyzed and the influencing factors were discussed.
根据PPD为导电聚合物的模型分析了膜电极上苯配还原的动力学并讨论了对其影响的因素。
Polymer electrolyte is one of the important parts of lithium battery and proton conducting fuel cell. The property of the polymer electrolyte is a key factor affecting the performance of cell.
聚合物电解质是锂电池和燃料电池的重要组成部分,其电导率等特性是决定电池工作性能的重要因素。
During the preparation, high energy ray is used to radiate the polymer, and radiation dosage and conducting stuffing content are altered to control the shrinking rate and shrinking force effectively.
本发明在制备过程中还使用高能射线对聚合物进行辐射处理,并通过改变辐照剂量和导电填料含量,有效地控制收缩速率和收缩力。
Chemicals with standard electrode potentials higher than 0.8 V trigger disband of the resulting conducting polymer hydrogels, indicating potential dependent gel-sol transitions.
水凝胶在标准电极电势大于0.8V的氧化剂作用下发生解体,显示出电势依赖的凝胶-溶胶转变现象。
Chemicals with standard electrode potentials higher than 0.8 V trigger disband of the resulting conducting polymer hydrogels, indicating potential dependent gel-sol transitions.
水凝胶在标准电极电势大于0.8V的氧化剂作用下发生解体,显示出电势依赖的凝胶-溶胶转变现象。
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