Mechanism of conducting polymers is different from metals and semiconductors.
导电聚合物的导电机理不同于金属,也不同于无机半导体。
They are: high surface area activated carbons, metal oxide and conducting polymers.
他们是:高比表面积活性炭,金属氧化物和导电聚合物。
Conducting polymers, due to its superior conductivity, have become good carriers for enzyme immobilization.
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。
The applications and the advances in the study on the main-chain type aromatic electron-conducting polymers were review.
文中综述了芳香族电子导电高分子的应用和研究进展,指出其存在问题和解决方法。
A review discussion of the facts and factors to be considered in the molecular design of conducting polymers is presented.
本文综述了导电高聚物分子设计的一些实验事实和必需考虑的因素。
Polyaniline nanostructures had wide potential applications because of the advantages of both conducting polymers and nano-materials.
聚苯胺纳米结构同时具有导电高分子材料和纳米材料的优点,具有广阔的应用前景。
As conducting polymers belong to the system of wide energy band, the SSH model in a state of tight-binding approximation is too crude.
由于导电高分子是宽能带体系;对于该体系来说,紧束缚近似下的SSH模型是过于粗糙的。
Organic electronic materials are also called organic semiconductors, conducting polymers, conducting plastic, conjugated polymers et al.
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。
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。
Polyaniline (PANI) is one of the most commercially valuable conducting polymers duo to its low cost, ease of synthesis, excellent environmental stability.
聚苯胺(PANI)因其原料便宜,合成简单,稳定性及抗氧化性能良好,成为最具有商业价值的导电高分子材料之一。
The new electrically conductive filler namely intrinsic conducting polymers especially polyaniline, used in conductive rubber, is also discussed in this paper.
也对采用新型的填料即本征导电聚合物主要是聚苯胺填充制备导电复合橡胶的研究进展进行了综述。
Recently, appropriate electrocatalysis such as transition metal thiolate salts, and conducting polymers have been utilized to enhance the REDOX kinetics of this organic disulfide.
研究发现,采用适当的电化学催化剂如过渡金属硫醇盐或导电聚合物能大大加快有机二硫在室温下的反应动力学速度。
Polyaniline (PANI) is one of the most interesting conducting polymers due to its environmental stability, ease in preparation, exciting electrochemical, optical and electrical properties.
良好的化学稳定性、独特的掺杂现象以及具有优良的电致变色性,使它成为目前导电高分子聚合物领域的研究热点。
In this paper, the synthesis of soluble conducting polymers was reviewed with emphasis on polyacetylene and its derivates. Their structure, property and recent development are also described.
本文以聚乙炔类导电高分子为重点简要地综述了可溶性导电高分子的合成与研究现状。
As a member of conjugated conducting polymers, polyaniline (PAN1)exhibits unique properties, has high electrical conductivity, be able to be doped , excellent environment stability and low cost.
聚苯胺是一种典型的导电聚合物,具有高电导率,可掺杂并且具有较好的环境稳定性,易于合成以及成本低等优点。
The properties of electrochemical super-capacitor assembled with conducting polymers were investigated by cyclic voltammetry, charging-discharging cycles and electrochemical impedance spectroscopy.
根据循环伏安曲线、充放电曲线和电化学阻抗谱,研究了超级电容器的电容性能。
The properties of electrochemical super-capacitor assembled with conducting polymers were investigated by cyclic voltammetry, charging-discharging cycles and electrochemical impedance spectroscopy.
根据循环伏安曲线、充放电曲线和电化学阻抗谱,研究了超级电容器的电容性能。
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