在不同压力条件下用原位聚合法制备了导电聚苯胺薄膜。
The conducting PANI films were synthesized by in situ polymerization under various high pressures.
展望了透明导电聚苯胺薄膜在光电器件和微电子器件领域的应用前景。
The application prospect of the transparent and conducting polyaniline films in optoelectronic and microelectronic devices is forecasted.
合成了电导率较高和很好溶解性的导电聚苯胺材料,可以用作抗静电材料。
We can get a high - conductive and soluble doped polyaniline which can be used as antistatic materials.
采用乳液聚合方法,合成有机大分子酸DBSA掺杂的可溶导电聚苯胺。
Use emulsion polymerization to produce soluble and conductive polyaniline (PAn) with DBSA doped.
水溶性导电聚苯胺由于其优异的电性能和化学稳定性,具有潜在的实用性价值。
Based on excellent electrical properties and chemical stability, the application of water-soluble conductive polyaniline is very valuable.
探索用电化学方法在不锈钢阳极上,从酸性苯胺溶液中合成致密的导电聚苯胺膜的条件。
The conditions for polymerizing compact and conductive polyaniline films were explored by electrochemical methods on a stainless steel anode in acidic aqueous solution.
苯胺在化学氧化聚合过程中,可自发地聚合沉积在不同基体表面,形成透明导电聚苯胺薄膜。
Transparent and conducting polyaniline films are produced by polymerization and deposition on various substrates spontaneously during the chemical oxidative polymerization of aniline.
分析研究轴承磨加工工序所用的切削液,并选出新型环保导电聚苯胺水性防锈切削液进行试验。
Through analysis and research on cutting fluid used by the bearing grinding process, new environment protection conducting polyaniline water-based antirust cutting fluid is selected.
本论文在不使用膜板的条件下,在不同阳极片上采用一步法电化学聚合制备导电聚苯胺的纳米结构。
This dissertation presents a simple method (free-template) that provides conducting polyaniline nanostructures on different anodes via one-step electropolymerization.
导电聚苯胺结构和导电性能较稳定,所用掺杂剂的毒性也较小,是目前最有发展前景的导电功能材料。
The conducting polyaniline is one of the most promising conducting functional materials for its stable structure, conducting properties and little poisonous dopant.
以导电聚苯胺为电极材料,考察了聚苯胺电极对CIO-离子的响应信号值、响应灵敏度及测试结果的稳定性。
Response current value, response sensibility and stability of measurement were investigated for CIO - 1 ion with conducting polyaniline was used as working electrode.
研究了实验室制备的两种导电聚苯胺材料与乙烯-丙烯酸共聚物(EAA)的共混及共混物的导电性能和微观形态。
Studied in this paper were the conductive properties and the microstructure of two blends of polyaniline with EAA, doped with ethylene-acrylic acid copolymer and DBSA respectively.
本文主要介绍了透明导电聚苯胺复合膜的几种制备方法及提高透明导电复合膜的透明导电性、耐水、耐化学性的最新研究进展。
This paper introduces preparation methods of transparent conductive polyaniline composite films and new means of improving their conductivity and resistance to water, acid and organic solvents etc.
聚苯胺(PANI)是研究最为广泛的导电高分子材料之一。
Polyaniline (PANI) is one of the most intensively researched conductive polymer 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。
Polyaniline nanostructures had wide potential applications because of the advantages of both conducting polymers and nano-materials.
聚苯胺的聚合掺杂条件对其颗粒结构及其导电性能有着很大的影响。
Conditions of polymerization and doping have great influence upon the grain shape and electrical performance of doped polyaniline (PA).
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。
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.
研究了TAP-H2O2及DBSA的用量、反应温度和时间对聚苯胺的导电率及产率的影响。
The oxidant(TAP-H2O2), DBSA, reaction temperature and time on the yield and conductivity of the doped polyaniline was studied.
采用电化学方法,以高氯酸为掺杂剂,合成了具有较好导电性能和机械性能的聚苯胺自支撑膜。
In this paper the polyaniline free standing film with better electric conductivity and mechanical properties was prepared by electrochemical method and doping with perchloric acid.
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。
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.
将力学性能好的基质与聚苯胺相复合制备聚苯胺导电复合膜是对聚苯胺改性的重要方法之一。
Preparing a conductive composite film through compounding of polyaniline and substrates with good mechanical behavior is an important method of polyaniline modification.
研究了绝缘聚合物的化学结构对聚苯胺导电复合物形态结构及电性能影响。
The influence of the chemical structure of insulating polymer on the morphological structure and the electrical properties of polyaniline composite was investigated.
本文以自制的聚苯胺复合导电纤维为导电相材料,制备了导电纤维沥青混凝土。
In this paper, the self-made polyaniline compound conductive fibers are taken as the electric material, the conductive fiber asphalt concrete is prepared.
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。
The new electrically conductive filler namely intrinsic conducting polymers especially polyaniline, used in conductive rubber, is also discussed in this paper.
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.
研究了聚苯胺的离子注入掺杂对导电性的影响。
In this paper studied was the influence of ion implantation doping on the conductivity of polyaniline.
特别是掺杂态聚苯胺,因具有优良的导电性和电致变色性,在日用商品及高科技等领域有着极其广泛的应用前景。
In particular, doped PAN has found wide application prospect in such fields as daily commodities and high technology due to its perfect conductivity and electrochromism.
采用溶液共混法将聚苯胺溶液与丙烯酸树脂共混,制备了双组分导电涂膜。
The blend of polyaniline and polyacrylate was made by solution process, which is further used to prepare the conductive coatings film.
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。
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。
Polyaniline (PANI) is one of the most commercially valuable conducting polymers duo to its low cost, ease of synthesis, excellent environmental stability.
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