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首页> 外文期刊>ACS applied materials & interfaces >Refining Interfaces between Electrolyte and Both Electrodes with Carbon Nanotube Paper for High-Loading Lithium-Sulfur Batteries
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Refining Interfaces between Electrolyte and Both Electrodes with Carbon Nanotube Paper for High-Loading Lithium-Sulfur Batteries

机译:用于高负荷锂 - 硫电池的电解质和碳纳米管纸之间的电解质与两个电极之间的界面

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摘要

Lithium sulfur (Li-S) batteries are appealing energy storage technologies because of their high theoretical energy density and low cost. However, Li-S batteries suffer from poor practical energy density due to serious polysulfide dissolution and shuttle, as well as lithium anode corrosion. Herein, we provide a dual-protection strategy for the high-energy density Li-S cell by inserting two nanotube paper (CNTp) interlayers on both electrodes. The CNTp interlayers can provide stable interfaces for both the cathode and anode, facilitating the formation of uniform charge transfer and ion flue. As a result, the Li-S cell exhibits stable cycling performance and great rate ability up to a high rate of 5 C (5 C = 25 mA cm(-2)). Even at an ultrahigh sulfur load of 12.1 mg cm(-2), a high areal capacity of 12.6 mAh cm(-2) is still achieved, which can remain at 11.1 mAh cm(-2) after 30 cycles (corresponding to 917 mAh g(-1)). The refined interfaces between the electrolyte and both electrodes are further confirmed by the micro-zone current distribution and COMSOL simulation. Our approach provides an effective and universal strategy to improve the electrochemical stability of the Li-S cell at high sulfur load, opening a new platform for designing advanced metal cell systems.
机译:锂硫(LI-S)电池是吸引能量存储技术,因为它们的理论能量密度高,成本低。然而,由于严重的多硫化物溶解和梭,以及锂阳极腐蚀,Li-S电池患有差的实用能量密度。这里,我们通过在两个电极上插入两个纳米管纸(CNTP)中间层来提供高能量密度Li-S电池的双保护策略。 CNTP中间层可以为阴极和阳极提供稳定的界面,便于形成均匀的电荷转移和离子烟道。结果,Li-S细胞表现出稳定的循环性能和高速率的高速率为5℃(5c = 25 mA(-2))。即使在12.1mg cm(-2)的超高硫负载下,仍然仍然实现了12.6mAhcm(-2)的高面积能力,其在30次循环后可以保留在11.1mAh cm(-2)(相当于917 mAh)下g(-1))。通过微区电流分布和COMSOL模拟进一步证实了电解质和两个电极之间的精制接口。我们的方法提供了一种有效且普遍的策略,以提高高硫载荷的Li-S电池的电化学稳定性,为设计先进的金属电池系统开辟新平台。

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  • 作者

    Peng Yueying; Wen Zhipeng; Liu Chaoyue; Zeng Jing; Wang Yunhui; Zhao Jinbao;

  • 作者单位

    Xiamen Univ State Prov Joint Engn Lab Power Source Technol Ne Engn Res Ctr Electrochem Technol Minist Educ Coll Chem &

    Chem Engn Xiamen 361005 Peoples R China;

    Xiamen Univ State Prov Joint Engn Lab Power Source Technol Ne Engn Res Ctr Electrochem Technol Minist Educ Coll Chem &

    Chem Engn Xiamen 361005 Peoples R China;

    Xiamen Univ State Prov Joint Engn Lab Power Source Technol Ne Engn Res Ctr Electrochem Technol Minist Educ Coll Chem &

    Chem Engn Xiamen 361005 Peoples R China;

    Xiamen Univ State Prov Joint Engn Lab Power Source Technol Ne Engn Res Ctr Electrochem Technol Minist Educ Coll Chem &

    Chem Engn Xiamen 361005 Peoples R China;

    Xiamen Univ State Prov Joint Engn Lab Power Source Technol Ne Engn Res Ctr Electrochem Technol Minist Educ Coll Chem &

    Chem Engn Xiamen 361005 Peoples R China;

    Xiamen Univ State Prov Joint Engn Lab Power Source Technol Ne Engn Res Ctr Electrochem Technol Minist Educ Coll Chem &

    Chem Engn Xiamen 361005 Peoples R China;

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  • 正文语种 eng
  • 中图分类 化学工业;
  • 关键词

    lithium-sulfur batteries; high sulfur loads; interlayer; interface; Li anode;

    机译:锂 - 硫磺电池;高硫负载;层间;界面;李阳极;

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