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Every cell in the body maintains a membrane potential due to an uneven distribution of positive and negative charges across its plasma membrane. The membrane potential is measured in millivolts and quantifies the difference in charge across the membrane.
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Substances that undergo either a physical or a chemical change in solution to yield ions that can conduct electricity are called electrolytes. If a substance yields ions in solution, that is, if the compound undergoes 100% dissociation, then the substance is a strong electrolyte. Complete dissociation is indicated by a single forward arrow. For example, water-soluble ionic compounds like sodium chloride dissociate into sodium cations and chloride anions in aqueous solution.
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一个转变的分子肌肉固体电解质

Yuhang Liu1, Zhangqin Shi1,2, Xinyang Yue1,2

  • 1Frontiers Science Center for Transformative Molecules, State Key Laboratory of Synergistic Chem-Bio Synthesis, School of Chemistry and Chemical Engineering, Shanghai Jiao Tong University, Shanghai 200240, China.

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概括
此摘要是机器生成的。

研究人员开发了一种由肌肉功能启发的分子肌肉固体聚合物电解质 (SPE). 这一突破提高了离子导电性和机械强度,

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科学领域:

  • 材料科学
  • 电化学
  • 聚合物化学

背景情况:

  • 固体聚合物电解质 (SPEs) 对金属电池 (LMB) 至关重要,但在平衡机械强度和离子导电性方面面临挑战.
  • 在
  • 海效应
  • 没有.
  • 在
  • 海效应
  • 限制了 SPE 在 LMB 的实际应用.

研究的目的:

  • 设计一种超越传统材料限制的新型SPE.
  • 提高高级LMB的SPE的离子导电性和机械强度.
  • 研究一种由生物肌肉结构启发的新类型的SPEs.

主要方法:

  • 机械互锁[c2]链 ([c2]DC) 网络 (DC-MIN) 的制造
  • 离子导电性,机械性能和电化学性能的表征.
  • 测试Li对称细胞和完全固态囊 LMB.

主要成果:

  • 在没有增塑剂的情况下,达到1.04mS cm-1的室温离子导电性.
  • 通过动态[c2]DC单元和宿主-客户互动证明了卓越的机械性能和增强的离子传输.
  • 通过限制树突的生长,延长了对称Li细胞的寿命至5000小时以上.
  • 在1Ah LiFePO4袋细胞中完成750个循环后,达到87.8%的容量保留.

结论:

  • 分子肌肉SPE设计有效地打破了LMB的SPE开发瓶.
  • [c2]DC网络的动态性为高性能固态电池提供了一个有前途的策略.
  • 这项工作为设计下一代能源存储的强大和导电性SPE提供了新的途径.