Polymer electrolyte glue : a universal interfacial modification strategy for all-solid-state Li batteries

Polymer electrolyte glue : a universal interfacial modification strategy for all-solid-state Li batteries

In recent years solid Li+ conductors with competitive ionic conductivity to those of liquid electrolytes have been reported. However, the incorporation of highly conductive solid electrolytes into the lithium-ion batteries is still very challenging mainly due to the high resistance existing at the s...

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Bibliographic Details
Main Authors: Dong, Derui, Zhou, Bin, Sun, Yufei, Zhang, Hui, Zhong, Guiming, Dong, Qingyu, Fu, Fang, Qian, Hao, Lin, Zhiyong, Lu, Derong, Shen, Yanbin, Wu, Jihuai, Chen, Liwei, Chen, Hongwei
Other Authors: School of Chemical and Biomedical Engineering
Format: Article
Language:English
Published: 2020
Subjects:
Engineering::Chemical engineering
Polymer Electrolyte
Glue
Online Access:https://hdl.handle.net/10356/142857
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Institution: Nanyang Technological University
Language: English
Description
Summary:In recent years solid Li+ conductors with competitive ionic conductivity to those of liquid electrolytes have been reported. However, the incorporation of highly conductive solid electrolytes into the lithium-ion batteries is still very challenging mainly due to the high resistance existing at the solid-solid interfaces throughout the battery structure. Here, we demonstrated a universal interfacial modification strategy through coating a curable polymer-based glue electrolyte between the electrolyte and electrodes, aiming to address the poor solid-solid contact and thus decrease high interfacial resistance. The liquid glue exhibits both great wettability as well as chemical/electrochemical stability to most of the electrodes, and it can be easily solidified into a polymer electrolyte layer through a "post-curing" treatment. As a result, symmetric Li batteries with the glue modification exhibit much smaller impedance and enhanced stability upon plating/stripping cycles compared to the batteries without glue modification. The all-solid-state Li-S batteries with glue modification show significantly enhanced performances. The strategy of developing glue electrolytes to improve the electrode-electrolyte interface contact provides an alternative option for improving many other solid-state batteries.

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