Life cycle safety issues of lithium metal batteries: A perspective

Electron Pub Date : 2023-10-10 DOI:10.1002/elt2.8
Shi-Jie Yang, Feng-Ni Jiang, Jiang-Kui Hu, Hong Yuan, Xin-Bing Cheng, Stefan Kaskel, Qiang Zhang, Jia-Qi Huang
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引用次数: 1

Abstract

The rising lithium metal batteries (LMBs) demonstrate a huge potential for improving the utilization duration of energy storage devices due to high theoretical energy density. Benefiting from the designs in the electrolyte, interface, and lithium host, several attempts have been made in the commercial application of LMBs. However, the application of lithium anode introduces additional safety risks and potential catastrophic accidents due to the high activity of lithium metal and dendrite during the electrochemical cycles. A comprehensive understanding of challenges and design issues on the safety hazards of LMBs in life cycle management is imperative for safe and commercial applications of LMBs. This paper first reviews emerging key safety issues and promising corresponding enhancements of LMBs during their production, utilization, and recycling. The wet air instability of lithium metal anode and gas production during activation have undoubtedly become the most intractable problems in LMBs production. It is necessary to use spraying technology to build a good protection layer upon lithium metal anode. Then, the growth of lithium dendrites poses a higher challenge to the utilization of LMBs, which requires the design of better electrolyte, anode skeleton, and other strategies as well as the prediction of LMBs life through big data and other methods. As for LMBs recovery, it is of great significance to choose the solvent to effectively control the consumption rate and temperature of highly reactive lithium metal powder. At last, further appeals and improvements are proposed for inspiring more related research to push forward the commercial use of LMBs.

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锂金属电池的生命周期安全问题:一个视角
新兴的锂金属电池(lmb)由于具有较高的理论能量密度,在提高储能装置的使用时间方面具有巨大的潜力。得益于电解液、界面和锂基质的设计,lmb在商业应用方面进行了多次尝试。然而,由于锂金属和枝晶在电化学循环过程中的高活性,锂阳极的应用带来了额外的安全风险和潜在的灾难性事故。全面了解LMBs生命周期管理中安全隐患的挑战和设计问题,对于LMBs的安全和商业应用至关重要。本文首先综述了lmb在生产、利用和回收过程中出现的关键安全问题和相应的改进措施。金属锂阳极的湿空气不稳定性和活化过程中的产气问题无疑成为lmb生产中最棘手的问题。为了在锂金属阳极上建立良好的保护层,有必要采用喷涂技术。然后,锂枝晶的生长对lmb的利用提出了更高的挑战,这需要设计更好的电解质、阳极骨架等策略,并通过大数据等方法预测lmb的寿命。对于lmb的回收,选择有效控制高活性金属锂粉的消耗率和温度的溶剂具有重要意义。最后,提出了进一步的呼吁和改进,以期激发更多的相关研究,推动lmb的商业化应用。
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