2) 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
4) 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。
5) conjugated polymer
共轭高聚物
1.
Measurements on the third order optical nonlinearities of the conjugated polymeric cast film of PPQ (polyphenylquinoxalines) were performed based on the so called Z-scan method using a frequency doubled mode-locked Nd∶YAG laser with low repetition rate.
用 Z-扫描方法在 532 nm波长测量了共轭高聚物 PPQ( polyphenylquinoxalines)薄膜的三阶光学非线性参数 ,发现其较强的非线性 (双光子 )吸收系数β≈ 0 。
2.
Measurements on the third order optical nonlinearities of the conjugated polymeric cast film of PPQ (polyphenylquinoxalines) were performed at 532 nm wavelength using a frequency doubled mode locked Nd∶YAG laser with 10 Hz repetition rate.
在 532 nm波长处测量了共轭高聚物 PPQ薄膜的三阶光学非线性参数 ,发现其较强的非线性 (双光子 )吸收系数β≈ 0 。
补充资料:氯乙烯和乙烯僧酸乙烯共聚物接枝共聚物
分子式:
CAS号:
性质:为在乙烯/醋酸乙烯共聚物(EVA)之大分子链上进行氯乙烯接枝共聚后得到之产品,按EVA中醋酸乙烯含量不同和接枝共聚物中EVA含量不同以及分子量大小,分为冲击改性剂用、硬质和软质品用三类。作冲击改性剂用和软质品用者多为EVA中VAC含量45%,EVA含量为50%。主要用于防水卷材、医用制品、电缆、记录材料和与PVC共混后作门窗型材。硬质品用者为EVA中VAC含量为15%,EVA含量5%~10%。除接枝物外含聚氯乙烯均聚物。可直接用作门窗型材和管材,冲击强度比一般PVC可提高4倍以上,将EVA溶于或分散于氯乙烯单体中进行悬浮聚合制得。
CAS号:
性质:为在乙烯/醋酸乙烯共聚物(EVA)之大分子链上进行氯乙烯接枝共聚后得到之产品,按EVA中醋酸乙烯含量不同和接枝共聚物中EVA含量不同以及分子量大小,分为冲击改性剂用、硬质和软质品用三类。作冲击改性剂用和软质品用者多为EVA中VAC含量45%,EVA含量为50%。主要用于防水卷材、医用制品、电缆、记录材料和与PVC共混后作门窗型材。硬质品用者为EVA中VAC含量为15%,EVA含量5%~10%。除接枝物外含聚氯乙烯均聚物。可直接用作门窗型材和管材,冲击强度比一般PVC可提高4倍以上,将EVA溶于或分散于氯乙烯单体中进行悬浮聚合制得。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条