综述了有关导电聚合物复合材料的研究。
A review is given of the research on composites including conductive polymers.
综述了炭黑填充复合型导电聚合物的研究进展。
The advances in conductive polymer composites filled with carbon black are reviewed.
概述了导电聚合物的特点、分类及相应的导电机理。
The features and sorts of conductive polymer were outlined as well as its conductive mechanism.
他们是:高比表面积活性炭,金属氧化物和导电聚合物。
They are: high surface area activated carbons, metal oxide and conducting polymers.
导电聚合物的导电机理不同于金属,也不同于无机半导体。
Mechanism of conducting polymers is different from metals and semiconductors.
介绍了用循环伏安法确定导电聚合物能隙和能带参数的方法。
Energy gap and energy band parameters were determined by using cyclic voltammetry.
导电聚合物具有良好的导电性,已成为一种酶固定的良好载体。
Conducting polymers, due to its superior conductivity, have become good carriers for enzyme immobilization.
本发明属于吸波材料技术领域,特别涉及导电聚合物吸波材料。
The invention belongs to the technical field of wave-absorbing materials, and in particular relates to a conductive polymer wave-absorbing material.
导电聚合物半导体的最大特点是掺杂物在工作条件下可以移动。
Sunlight may be converted into electrical or chemical energy by semiconductors composed of suitably doped polymers (e. g. polyaeetylene) .
导电聚合物是一种新型的功能材料,用于制备各种生物传感器和致动器。
As a new type of functional materials, conductive polymers are used to manufacture the biosensors and actuators.
导电聚合物作为一种新型材料在屏蔽电磁波方面展现出了良好的应用前景。
Conducting polymer as a new material has shown a prefect application in shielding electromagnetic wave.
综述了国内外复合型导电聚合物的最新研究进展、技术成果以及应用领域。
The application fields of conductive polymer were introduced. The latest developing advances of conductive polymer composites at home and abroad were reviewed.
然后把热载荷和电场力同时作用在模型上,分析两者对导电聚合物的共同作用效应。
Then the deformations of the conductive polymers are simulated under thermal and electric joint load.
用导电聚合物作电极材料而制成的塑料电池,是近年来研制成功的一种新型蓄电池。
A new organic battery which USES a conductive polymer as the material for electric poles has been recently developed.
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。
The photoelectric characteristics of conducting polymer MEH-PPV thin film were studied using contact potential difference (CPD) method.
用激发态相关基函数理论,计算了电子-电子相互作用对导电聚合物能带宽度的影响。
By using the electron correlated basis function of excited state, we calculate the effect of electron interaction on the bandwidth of conductive polymers.
路博润导电聚合物确保产品或包装将消失之前收取任何损害发生在一个敏感的电子环境。
Lubrizol Conductive Polymers ensure that products or packaging will dissipate charge before any damage occurs in a sensitive electronics environment.
与化学掺杂相比较,等离子体掺杂具有很高的掺杂速率,并可提高导电聚合物的稳定性。
Compared with a chemical doping, the plasma doping displays much higher doping speed and can improve the stability of conductive polymers.
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。
The photoelectric characteristics of conducting polymer MEH - PPV film were studied using contact potential difference ( CPD ) method.
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 photoluminescence spectra of conducting polymer P3MT with different doping densities at different excitation intensities and temperatures are reported.
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。
According to the model of PPD as a conducting polymer, the kinetics of benzoquinone reduction was analyzed and the influencing factors were discussed.
综述了导电聚合物材料的电致显色的机理、掺杂方式、掺杂特点和电致显色膜的制备方法。
The electrochromic mechanism, doping behavior, doping characteristic and preparing method of polymer film are summarized.
有机电子材料有时也称为有机半导体、导电聚合物、导电高分子、导电塑料、共轭聚合物等。
Organic electronic materials are also called organic semiconductors, conducting polymers, conducting plastic, conjugated polymers et al.
导电聚合物的发现提供了新的制造廉价光伏电池的材料,使其研究开发低成本光伏电池成为可能。
The discovery of electric conducting polymers supplies new materials and makes it possible to research and develop photovoltaic cells of low cost.
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。
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.
质子交换膜燃料电池质子交换膜电解一样,质子交换膜燃料电池用电解液薄,质子导电聚合物膜。
PEM fuel CellsLike PEM Electrolysers, PEM fuel cells use a thin, proton-conducting polymer membrane as an electrolyte.
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。
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.
聚苯胺(PANI)是最重要的导电聚合物之一,近年来,其复合材料的研究和应用越来越受到重视。
As one of the most important conductive polymers, attention is widely paid to the research and application of polyaniline (PANI) composites in recent years.
查尔·姆斯理工大学研究人员在将导电聚合物放置在纳米结构上时,偶然发现二者结合可制造出电子显示屏。
Researchers at Chalmers University of Technology stumbled upon the combination to create the electronic display while working on placing conductive polymers on nanostructures.
查尔·姆斯理工大学研究人员在将导电聚合物放置在纳米结构上时,偶然发现二者结合可制造出电子显示屏。
Researchers at Chalmers University of Technology stumbled upon the combination to create the electronic display while working on placing conductive polymers on nanostructures.
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