A Dynamic, Electrolyte-Blocking, and Single-Ion-Conductive Network for Stable Lithium-Metal Anodes

A Dynamic, Electrolyte-Blocking, and Single-Ion-Conductive Network for Stable Lithium-Metal Anodes

In this work, we designed a multifunctional material to improve the stability of lithium-metal anodes. By integrating dynamic flowability, fast single-ion conduction, and electrolyte-blocking property into a single matrix, the dynamic single-ion-conductive network (DSN), we achieved long cycle life...

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Veröffentlicht in:Joule 2019-11, Vol.3 (11)
Hauptverfasser: Yu, Zhiao, Mackanic, David G., Michaels, Wesley, Lee, Minah, Pei, Allen, Feng, Dawei, Zhang, Qiuhong, Tsao, Yuchi, Amanchukwu, Chibueze V., Yan, Xuzhou, Wang, Hansen, Chen, Shucheng, Liu, Kai, Kang, Jiheong, Qin, Jian, Cui, Yi, Bao, Zhenan
Format: Artikel
Sprache:eng
Schlagworte:
ENERGY STORAGE
lithium-metal battery
multifunctional SEI
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Zusammenfassung:In this work, we designed a multifunctional material to improve the stability of lithium-metal anodes. By integrating dynamic flowability, fast single-ion conduction, and electrolyte-blocking property into a single matrix, the dynamic single-ion-conductive network (DSN), we achieved long cycle life for lithium-metal full batteries in commercial carbonate electrolyte. We report the solution processability of DSN is promising for its application in practical lithium-metal batteries. We also systematically tuned the crosslinking chemistry to study the synergistic stabilizing effects.
ISSN:2542-4351
2542-4351