用于低温、高压和快速充电锂金属电池的纳米结构嵌段共聚物单离子导体

Solar Energy Materials Pub Date : 2023-07-21 DOI:10.20517/energymater.2023.27

Junli Shi, Huu‐Dat Nguyen, Zhen Chen, Rui Wang, Dominik Steinle, L. Barnsley, Jie Li, H. Frielinghaus, D. Bresser, C. Iojoiu, Elie Paillard

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摘要

本文报道了一种用于高压低温锂金属电池的单离子聚合物电解质，即使在2 mA cm-2的高电流密度下也能抑制枝晶的生长。纳米结构的电解质是通过易于扩展的工艺通过机械加工聚合物粉末引入电池的。对于商业电池的潜在应用来说，重要的是发现它在高压下不会引起铝腐蚀，并且导致与锂金属的低界面电阻。这些有益的特性，结合其高单离子电导率和高阳极稳定性，允许最先进的锂离子阴极(如NMC111和NMC622)与锂金属阳极在20°C甚至0°C下稳定循环数百次。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Nanostructured block copolymer single-ion conductors for low-temperature, high-voltage and fast charging lithium-metal batteries

Herein, a single-ion polymer electrolyte is reported for high-voltage and low-temperature lithium-metal batteries that enables suppressing the growth of dendrites, even at high current densities of 2 mA cm-2. The nanostructured electrolyte was introduced into the cell by mechanically processing the polymer powder via an easily scalable process. Important for the potential application in commercial battery cells is the finding that it does not induce aluminum corrosion at high voltages and leads to low interfacial resistance with lithium metal. These beneficial characteristics, in combination with its high single-ion conductivity and its high anodic stability, allow for the stable cycling of state-of-the-art lithium-ion cathodes, such as NMC111 and NMC622, in combination with a lithium metal anode at 20 °C and even 0 °C for several hundred cycles.

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Solar Energy Materials

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