Hybrid polymeric electrolyte based on methylalumoxane

M. Piszcz; rnM. Marczewski; rnA. Plewa-Marczewska; rnG.Z. Zukowska; rnA. Zalewska; rnA. Pietrzykowski; rnM. Siekierski

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Hybrid polymeric electrolyte based on methylalumoxane

机译：基于甲基铝氧烷的混合聚合物电解质

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In this article the properties of the electrolyte based on the product of the reaction of methylalumoxane with oligoethyleneglycols are examined. The electrochemical studies were performed to describe the conductivity and lithium transference number of the system. In addition, DSC, SEM, NMR and vibra-tional spectroscopy studies were used to get a more detailed description of the material. Three classes of electrolytes are here taken into consideration. The first based on the PEGDME liquid oligoether system modified with the MAO-PEGME branched heterocomposite system. The second one is the branched product itself used as an electrolyte matrix. In the last case a crosslinked system was obtained by the utilization of PEGME-PEG mixture. The conductivities obtained were in the range of 10~(-4) S cm~(-1) for liquid-like systems and above 10~(-5) S cm~(-1) for the solid ones. For samples containing UCF_3SO_3 the lithium transference number was higher than 0.5 for some electrolyte compositions while it was in the range of 0.4 for ones containing LiClO_4. Electrochemical stability of the system was preliminarily tested by means of cyclic voltammetry.

机译：在本文中，研究了基于甲基铝氧烷与低聚乙二醇反应的产物的电解质的性能。进行了电化学研究以描述系统的电导率和锂转移数。另外，DSC，SEM，NMR和振动光谱研究被用来对这种材料进行更详细的描述。这里考虑三类电解质。第一个基于PEGDME液态低聚醚系统，并用MAO-PEGME支链杂化复合物系统改性。第二个是支链产物本身，用作电解质基质。在最后一种情况下，通过利用PEGME-PEG混合物获得了交联体系。对于液体体系，电导率在10〜（-4）S cm〜（-1）范围内；对于固体体系，电导率在10〜（-5）S cm〜（-1）以上。对于含有UCF_3SO_3的样品，对于某些电解质组合物，锂的迁移数高于0.5，而对于含有LiClO_4的锂，其迁移率在0.4的范围内。通过循环伏安法初步测试了系统的电化学稳定性。

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来源
《Journal of power sources》 |2010年第22期|P.7495-7505|共11页
作者
M. Piszcz; rnM. Marczewski; rnA. Plewa-Marczewska; rnG.Z. Zukowska; rnA. Zalewska; rnA. Pietrzykowski; rnM. Siekierski;
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作者单位

Polymer Ionics Research Group, Warsaw University of Technology, Chemical Faculty, Noakowskiego 3, PL-00664 Warsaw, Poland;

rnPolymer Ionics Research Group, Warsaw University of Technology, Chemical Faculty, Noakowskiego 3, PL-00664 Warsaw, Poland;

rnPolymer Ionics Research Group, Warsaw University of Technology, Chemical Faculty, Noakowskiego 3, PL-00664 Warsaw, Poland;

rnPolymer Ionics Research Group, Warsaw University of Technology, Chemical Faculty, Noakowskiego 3, PL-00664 Warsaw, Poland;

rnPolymer Ionics Research Group, Warsaw University of Technology, Chemical Faculty, Noakowskiego 3, PL-00664 Warsaw, Poland;

rnPolymer Ionics Research Group, Warsaw University of Technology, Chemical Faculty, Noakowskiego 3, PL-00664 Warsaw, Poland;

rnPolymer Ionics Research Group, Warsaw University of Technology, Chemical Faculty, Noakowskiego 3, PL-00664 Warsaw, Poland;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
lithium battery; organic-inorganic system; heterocomposite polymeric electrolyte; NMR spectroscopy; vibrational spectroscopy;

机译：锂电池有机-无机系统杂复合高分子电解质NMR光谱;振动光谱;
入库时间 2022-08-18 00:25:30

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1. Hybrid polymeric electrolyte based on methylalumoxane. Matrix formation reaction [J] . M. Marczewski, M. Piszcz, A. Plewa-Marczewska, Electrochimica Acta . 2010,第4期

机译：基于甲基铝氧烷的混合聚合物电解质。基质形成反应
2. Optimization of methylalumoxane based composite polymeric electrolytes for lithium battery applications [J] . Piszcz M., Marczewski M., Zukowska G.Z., Solid state ionics . 2013,第Null期

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3. Solid polymer electrolytes. XI. Preparation, characterization and ionic conductivity of new plasticized polymer electrolytes based on chemical-covalent polyether-siloxane hybrids [J] . Liang WJ, Chen YP, Wu CP, Journal of Applied Polymer Science . 2006,第2期

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Hybrid polymeric electrolyte based on methylalumoxane

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