1) conjugate
[英]['kɔndʒəɡeɪt] [美]['kɑndʒə'get]
缀合物,偶联物;共轭物
2) organic conjugated azo compounds
偶氮类有机共轭化合物
1.
Six new organic conjugated azo compounds were synthesized and their structures were confirmed by Fourier transform infrared spectroscopy(FT-IR),~1H nuclear magnetic resonance apparatus \'H NMR and elemental analysis.
设计合成了6个新的偶氮类有机共轭化合物,用傅里叶变换红外光谱仪(FT-1R),~1H核磁共振(~1H NMR)和元素分析确证了结构。
3) conjugated polymer
共轭聚合物
1.
Synthesis of photosensitive conjugated polymer-solublepoly (p-phenylene);
感光性可溶共轭聚合物聚对苯的合成
2.
The synthesis of fluorene/thiophen-based conjugated polymers via solid-state reaction;
基于芴和噻吩的共轭聚合物的固相合成及其表征
3.
High efficiency phosphorescence light-emitting diodes with conjugated polymer host
高效率共轭聚合物主体绿光磷光发光二极管
5) conjugated compound
共轭化合物
1.
Cyclodextrin and its derivatives have been applied widely in improving pharmaceutical properties(such as solubility and formulation) and enhancing drug delivery through their inclusion effects or formation of conjugated compounds.
环糊精及其衍生物通过非共价结合的包合作用或与药物形成共轭化合物,在提高溶解效率、改善药剂性能和方便药物传输等方面得到了广泛的应用。
6) Conjugated polymers
共轭聚合物
1.
It has been found that the fluorescence of conjugated polymers is heavily influenced by the con.
聚(2 甲氧基 5 (2′ 乙基己氧基) 1,4 对苯乙炔)(MEH PPV)在溶液中的链构象依赖于溶剂的性质,共轭聚合物的发光特性受链构象影响明显。
2.
The structures, doping characteristics, preparation methods, conductivity and electrochemical properties of conducting polymers, as well as the photoelectronic properties of conjugated polymers, were reviewed.
本文介绍了导电聚合物的发现和发展历史 ,综述了导电聚合物的结构和掺杂特征、制备方法、电导和电化学特性及其本征态共轭聚合物的光电特性。
补充资料:二甲苯聚合物
二甲苯聚合物
v、11。。e Polymers
erjiaben juhewu二甲苯聚合物xylene polymers焦扬声华东化工学院材料科学与工程系1.结构与性能”··············..·····”·“·“,”9011.].结构······················……‘·····“···……9011.2.性能·······································……9021.2.1.溶解性··········……‘···················……9021.2.2.化学反应·································……9021.2.3.物理性能和力学性能··················……9021.2.4.电性能····································……9021.2.5.热性能····································……9021.2.6.光学性能·································……9041.2.7.其它性能·································……9042.制备方法·········...·····················……9042.1.反应机理…t’’···············.….····.……9042.LL热解反应·································……9052.1.2.聚合反应············‘····················……9052.2.单体的制备·”···”··········”·“·“··……9062.3.聚合物的制备···“···················“·一9063.应用·”·“······“·“··············”···“·”·…907参考文献·········,·····,···················‘·········……908 二甲苯聚合物最早是以对二甲苯为单体而制畜的川。自本世纪60年代以来,随着合成工艺技术的改进,开始有商品问世,并得到广泛的应用〔2一7〕。现在的商品二甲苯聚合物实际上是以对二亚甲基苯的环状二聚体或其取代衍生物为单体在真空下热解并气相沉积聚合而制备的。 迄今已报道的二甲苯聚合物大约有三十几种,其中得到商业上应用的仅仅有聚对二甲苯〔257222一33一2〕千CHZ一C尹4一CHZ于.、聚氯代对二甲苯和聚二氯代对二甲苯。它们的商品名称分别为几ryzeneN,几rylenee和几ryleneo。兮 二甲苯聚合物通常以膜形式沉积在物件上,故其制备(涂膜)过程常称为Parylene沉积或Parylene涂膜。在Parylene徐膜过程中,单体的气相沉积与膜的形成几乎同时进行,不存在液相过渡态,且一般在室温进行,从而可使被涂件免受由表面张力而引起的变形危害。
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