Thermally Conductive AlN-Network Shield for Separators to Achieve Dendrite-Free Plating and Fast Li-Ion Transport toward Durable and High-Rate Lithium-Metal Anodes.

Lithium-metal anodes suffer from inadequate rate and cycling performances for practical application mainly due to the harmful dendrite growth, especially at high currents. Herein a facile construction of the porous and robust network with thermally conductive AlN nanowires onto the commercial polypropylene separator by convenient vacuum filtration is reported. The so-constructed AlN-network shield provides a uniform thermal distribution to realize homogeneous Li deposition, super electrolyte-philic channels to enhance Li-ion transport, and also a physical barrier to resist dendrite piercing as the last fence. Consequently, the symmetric Li|Li cell presents an ultralong lifetime over 8000 h (20 mA cm-2 , 3 mAh cm-2 ) and over 1000 h even at an unprecedented high rate (80 mA cm-2 , 80 mAh cm-2 ), which is far surpassing the corresponding performances reported to date. The corresponding Li|LiFePO4 cell delivers a high specific capacity of 84.3 mAh g-1 at 10 C. This study demonstrates an efficient approach with great application potential toward durable and high-power Li-metal batteries and even beyond. © 2022 The Authors. Advanced Science published by Wiley-VCH GmbH.

Citation

Yue Guo, Qiang Wu, Liwei Liu, Guochang Li, Lijun Yang, Xizhang Wang, Yanwen Ma, Zheng Hu. Thermally Conductive AlN-Network Shield for Separators to Achieve Dendrite-Free Plating and Fast Li-Ion Transport toward Durable and High-Rate Lithium-Metal Anodes. Advanced science (Weinheim, Baden-Wurttemberg, Germany). 2022 Jun;9(18):e2200411

PMID: 35460180

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