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1)  micro-porous composite polymer electrolytes
微孔复合聚合物电解质
2)  porous polymer electrolytes
微孔型聚合物电解质
1.
Study on porous polymer electrolytes filled with SiO_2 nanoparticles;
掺杂纳米SiO_2粉末的微孔型聚合物电解质研究
3)  micro-porous polymer electrolyte
微孔聚合物电解质
1.
The preparation methods of micro-porous polymer electrolyte(MPE)membrane,which will be used for the next generation Li-ion secondary batteries especially for the power batteries,are summarized in this paper.
特别是动力型电池用微孔型聚合物电解质膜材料的制备方法以及几类典型的聚合物电解质膜的特点进行了归纳和总结;比较了这一领域里萃取法、倒相法和直接造孔法的技术与工艺特点;用材料在实际电池中的机械强度、吸液率、耐高温性能、导电性能和电化学窗口宽度等指标考察了3种主要类型——单相型、两相型和复合型微孔聚合物电解质的各自优势与缺点;对微孔聚合物电解质的研制前景和开发趋势进行了展望。
4)  Polyelectrolyte complex
聚电解质复合物
1.
Polyelectrolyte complex formed from diazoresin(DR) as cationic polyelectrolyte and alkaline hydrolysate of styrenemaleic anhydride copolymer(PSMNa) as anionic polyelectrolyte does not dissolve in water or organic solvents due to its ionic crosslinking structure.
聚电解质复合物 ( PEC)因其独特的物理化学性质而受到广泛关注 。
2.
Recently, in drug controlled release system, polyelectrolyte complexes have been rewarded much attention.
近年来聚电解质复合物在药物控释领域受到重视。
3.
his review introduced the forming mechanism and character of polyelectrolyte(PEL) and polyelectrolyte complex(PELC),gave a retrospect to their contribution in the leather theory study, and pointed out their important denotation in theory studying and practice.
介绍了聚电解质(PEL)和聚电解质复合物(PELC)的生成机理和性质,对其在皮革理论研究中的作用进行了综述,指出了聚电解质理论在理论和应用中的重要意义。
5)  polyelectrolyte [英][,pɔlii'lektrəu,lait]  [美][,pɑliɪ'lɛktrə,laɪt]
聚电解质复合物
1.
METHODS Chitosantripolyphosphate sodium polyelectrolyte was prepared according to the principle of static electricity polymerization.
目的:开发应用新辅料甲壳胺与三聚磷酸钠发生聚合反应,生成聚电解质复合物,作为骨架材料制备双氟灭痛微丸。
2.
Polyelectrolyte, a new developed drug delivery system, which has many advantages, such as simple and mild preparation procedure, biocompatibility and biodegradability, excellent responsive drug release properties, and the merits to keep the bioactivity of polypeptide and proteins etc.
聚电解质复合物是一类较新发展起来的药物控释载体,具有制备工艺简单,生物相容和生物降解性能良好等特点。
6)  Polyelectrolyte complexes
聚电解质复合物
1.
Polyelectrolyte complexes(PECs) are formed by static interactions between macromolecules that carry oppositely charged polyions.
聚电解质复合物(Polyelectrolyte complexes,PEC)是指两种带有相反电荷的大分子通过静电吸引力的相互作用所形成的大分子复合物。
2.
This paper introduced the strengthening techniques of polymer latex,polyelectrolyte complexes,nanofibrils,polymer mincrogels and polyelectrolyte multilayers,which have been widely investigated in recent years.
该文介绍了目前研究较多的聚合物胶乳增强技术、聚电解质复合物增强技术、纳米纤维增强技术、微凝胶增强技术以及阴、阳离子聚电解质层层涂覆增强技术等纸张增强技术。
3.
FTIR spectrum of the polyelectrolyte complexes (PECs)showed that -NH+3-OOC-secondary valent bond was formed between chitosan and pectin.
胶体滴定、浊度滴定实验结果表明,壳聚糖和果胶在pH5·0~6·0范围内按一定比例、通过静电相互作用形成聚电解质复合物(PEC)。
补充资料:聚合物电解质
分子式:
CAS号:

性质: 高聚物离子导体,其链节单元中含有可解离性离子基团。按导电离子的类型,可分为阴离子、阳离子或双离子导体。常见的离子交换树脂及离子交换膜即为高聚物电解质。可用作固态高聚物电解质的基体材料较多,它们是非导体,加入锂盐离子导电性将极大地提高,为了进一步提高其电导率和增加其柔软性,通常还在其中添加有机溶剂作增塑剂。由于其良好的加工性能在全固态锂电池、电致变色器件、高容量电容器中有着广阔的应用前景。

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