基于具有近单离子传导特性的分级多功能聚合物电解质的稳定转化化学锂金属电池。

Stable Conversion Chemistry-Based Lithium Metal Batteries Enabled by Hierarchical Multifunctional Polymer Electrolytes with Near-Single Ion Conduction.

作者信息

Zhou Dong, Tkacheva Anastasia, Tang Xiao, Sun Bing, Shanmukaraj Devaraj, Li Peng, Zhang Fan, Armand Michel, Wang Guoxiu

机构信息

Centre for Clean Energy Technology, School of Mathematical and Physical Sciences, University of Technology Sydney, Sydney, NSW, 2007, Australia.

CIC ENERGIGUNE, Parque Tecnológico de Álava, Miñano, 01510, Spain.

出版信息

Angew Chem Int Ed Engl. 2019 Apr 23;58(18):6001-6006. doi: 10.1002/anie.201901582. Epub 2019 Mar 26.

DOI:10.1002/anie.201901582

PMID:30830705

Abstract

The low Coulombic efficiency and serious safety issues resulting from uncontrollable dendrite growth have severely impeded the practical applications of lithium (Li) metal anodes. Herein we report a stable quasi-solid-state Li metal battery by employing a hierarchical multifunctional polymer electrolyte (HMPE). This hybrid electrolyte was fabricated via in situ copolymerizing lithium 1-[3-(methacryloyloxy)propylsulfonyl]-1-(trifluoromethanesulfonyl)imide (LiMTFSI) and pentaerythritol tetraacrylate (PETEA) monomers in traditional liquid electrolyte, which is absorbed in a poly(3,3-dimethylacrylic acid lithium) (PDAALi)-coated glass fiber membrane. The well-designed HMPE simultaneously exhibits high ionic conductivity (2.24×10 S cm at 25 °C), near-single ion conducting behavior (Li ion transference number of 0.75), good mechanical strength and remarkable suppression for Li dendrite growth. More intriguingly, the cation permselective HMPE efficiently prevents the migration of negatively charged iodine (I) species, which provides the as-developed Li-I batteries with high capacity and long cycling stability.

摘要

由于不可控的枝晶生长导致的低库仑效率和严重安全问题，严重阻碍了锂金属负极的实际应用。在此，我们报道了一种通过采用分级多功能聚合物电解质（HMPE）制备的稳定准固态锂金属电池。这种混合电解质是通过在传统液体电解质中原位共聚1-[3-(甲基丙烯酰氧基)丙基磺酰基]-1-(三氟甲磺酰基)亚胺锂（LiMTFSI）和季戊四醇四丙烯酸酯（PETEA）单体而制备的，该传统液体电解质被吸收在聚（3,3-二甲基丙烯酸锂）（PDAALi）涂层的玻璃纤维膜中。精心设计的HMPE同时表现出高离子电导率（25°C时为2.24×10 S cm）、近单离子传导行为（锂离子迁移数为0.75）、良好的机械强度以及对锂枝晶生长的显著抑制作用。更有趣的是，阳离子选择性透过的HMPE有效地阻止了带负电荷的碘（I）物种的迁移，这为所开发的锂碘电池提供了高容量和长循环稳定性。

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基于具有近单离子传导特性的分级多功能聚合物电解质的稳定转化化学锂金属电池。

Stable Conversion Chemistry-Based Lithium Metal Batteries Enabled by Hierarchical Multifunctional Polymer Electrolytes with Near-Single Ion Conduction.

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