Electro-chemo-mechanics of lithium in solid state lithium metal batteries

Using lithium as the anode material to achieve high energy density lithium-ion/metal batteries is the ultimate goal of energy storage technology. A recent development of solid state electrolytes (SSEs) with high ionic conductivity holds great promise for enabling the practical applications of solid state lithium metal batteries (SSLMBs), as the high mechanical strength of SSEs can be harnessed to suppress dendrite growth. However, the application of SSLMBs is hampered by the new multifold problems from the solid-solid contact to dendrites to deleterious interfacial reactions between lithium and the SSEs. In this burgeoning field of SSLMBs, it is imperative to understand the fundamental science of these emerging problems at a very basic level before the application of SSLMBs can be realized. These problems are inter-related and they arise from the intrinsic physical, chemical, and electro-chemo-mechanical properties of lithium. We start this review by providing a brief account of the history of lithium, and how it has evolved from the anode of primary lithium metal batteries to that of liquid electrolyte based rechargeable batteries and to that of SSE based SSLMBs. We then summarize the literature about the mechanical properties of bulk lithium, lithium pillars and lithium whiskers. We analyze from an electro-chemo-mechanical perspective how lithium dendrites penetrate through SSEs and cause short circuits in SSLMBs. We identify possible strategies to mitigate lithium dendrite propagation through SSEs, and summarize our understanding of the lithium reaction with various interfaces, such as Li/Li7La3Zr2O12, Li/polyethylene oxide, Li/Na-superionic conductor, and Li/sulfide, with the ultimate goal of developing strategies to mitigate detrimental interfacial reactions and maintain sustainable stable interfaces. We review briefly characterization tools to address the challenging issues in SSLMBs. We conclude by pointing out the outstanding issues in SSLMBs.

Automated summary

This review discusses the current status of solid state lithium metal batteries and the challenges they face, summarizing issues related to lithium dendrite penetration through SSEs, detrimental interfacial reactions, and proposing possible mitigation strategies.