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首页> 外文期刊>Chemical engineering journal >Hyperbranched polyether boosting ionic conductivity of polymer electrolytes for all-solid-state sodium ion batteries
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Hyperbranched polyether boosting ionic conductivity of polymer electrolytes for all-solid-state sodium ion batteries

机译:用于全固态钠离子电池的聚合物电解质的超支化聚醚促进离子电导率

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摘要

Polyether, especially, poly (ethylene oxide) has attracted extensive attention in polymer electrolytes since 1973 due to the superior coordination ability with alkali metal ions. However, the ionic conductivity of linear polyether is suppressed by the inherent effortless crystallizability. Here we synthesized hyperbranched polyether for composite polymer electrolytes (named as PMH9-1/1-3 NaTFSI) with an ionic conductivity of 5.7 x 10(-4) S cm(-1) at room temperature used in all-solid-state sodium ion batteries (ASIBs). The effect of grafting site on segmental motion and the plasticizing effect of TFSI- anion on polyether are revealed by nuclear magnetic resonance and infrared spectrum characterizations. ASIBs using PMH9-1/1-3 NaTFSI exhibit a high capacity retention ratio of 92% at 0.2C after 300 cycles. Studies on the grafting site on polyether backbone and the plasticizing effect of TFSI-anion make sense to fabricating composite electrolytes with high performance for ASIBs.
机译:特别是聚醚,特别是聚(环氧乙烷),由于与碱金属离子的优异配位能力,自1973起引起了聚合物电解质的广泛关注。 然而,通过固有的毫不费力的结晶性抑制了线性聚醚的离子电导率。 在这里,我们在全固态钠中使用的室温下合成复合聚合物电解质(命名为PMH9-1 / 1-3 NATFSI)的复合聚合物电解质(命名为PMH9-1 / 1-3 NATFSI)的超支化聚醚(-1) 离子电池(ASIB)。 核磁共振和红外光谱特征揭示了嫁接部位对节段运动的影响及其对聚醚的塑化作用。 使用PMH9-1 / 1-3 NATFSI的ASIB在300次循环后表现出92%的高容量保持比率为92%。 聚醚骨架上嫁接部位的研究及TFSI-阴离子的增塑效果对ASIBS高性能制造复合电解质的意义。

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  • 来源
    《Chemical engineering journal》 |2020年第1期|共10页
  • 作者

    Chen Guanghai; Ye Lin; Zhang Kun; Gao Ming; Lu Hang; Xu Huajie; Bai Ying; Wu Chuan;

  • 作者单位

    Beijing Inst Technol Sch Mat Sci &

    Engn Beijing Key Lab Environm Sci &

    Engn 5 South Zhongguancun St Beijing 100081 Peoples R China;

    Beijing Inst Technol Sch Mat Sci &

    Engn Beijing Key Lab Environm Sci &

    Engn 5 South Zhongguancun St Beijing 100081 Peoples R China;

    Beijing Inst Technol Sch Mat Sci &

    Engn Beijing Key Lab Environm Sci &

    Engn 5 South Zhongguancun St Beijing 100081 Peoples R China;

    Beijing Inst Technol Sch Mat Sci &

    Engn Beijing Key Lab Environm Sci &

    Engn 5 South Zhongguancun St Beijing 100081 Peoples R China;

    Beijing Inst Technol Sch Mat Sci &

    Engn Beijing Key Lab Environm Sci &

    Engn 5 South Zhongguancun St Beijing 100081 Peoples R China;

    Zhengzhou Univ Minist Educ Key Lab Mat Proc &

    Mold Zhengzhou 450002 Peoples R China;

    Beijing Inst Technol Sch Mat Sci &

    Engn Beijing Key Lab Environm Sci &

    Engn 5 South Zhongguancun St Beijing 100081 Peoples R China;

    Beijing Inst Technol Sch Mat Sci &

    Engn Beijing Key Lab Environm Sci &

    Engn 5 South Zhongguancun St Beijing 100081 Peoples R China;

  • 收录信息
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 化学工业;
  • 关键词

    Sodium ion batteries; All-solid-state; Hyperbranched polyether; Grafting site; Plasticizing effect; Composite electrolytes;

    机译:钠离子电池;全固态;超支化聚醚;嫁接部位;塑化效果;复合电解质;

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