Dr. Yueying Peng, Dr. Ryota Tamate, Dr. Kei Nishikawa
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引用次数: 0
Abstract
Lithium (Li) metal is a promising candidate for next-generation high-energy-density rechargeable batteries. However, the solid electrolyte interphase (SEI) inevitably suffers from mechanical fracture owing to the large morphological change during Li cycling, leading to the uncontrollable growth of Li dendrites, low Coulombic efficiency, and short cycle life. The fabrication of an artificial interphase is an effective strategy for improving the performances of Li metal anodes. The ideal artificial interphase should provide sufficient mechanical robustness to suppress dendritic Li growth and accommodate large volume changes during Li deposition-dissolution cycles. In this review, we focus on the fabrication of mechanically robust artificial interphases for stabilizing Li-metal anodes, including the underlying mechanism of SEI fracture, quantitative requirements for mechanical properties, measurements of mechanical properties, and recent progress in the fabrication of mechanically stable artificial interphases.
金属锂(Li)是下一代高能量密度充电电池的理想候选材料。然而,在锂循环过程中,固态电解质中间相(SEI)不可避免地会因形貌的巨大变化而发生机械断裂,导致锂枝晶的不可控生长、库仑效率低和循环寿命短。制造人工中间相是提高锂金属阳极性能的有效策略。理想的人工中间相应具有足够的机械坚固性,以抑制锂枝晶的生长,并在锂沉积-溶解循环过程中适应较大的体积变化。在本综述中,我们将重点讨论用于稳定锂金属阳极的机械稳健性人工中间相的制造,包括 SEI 断裂的基本机制、对机械性能的定量要求、机械性能的测量,以及在制造机械稳定的人工中间相方面的最新进展。
期刊介绍:
ChemElectroChem is aimed to become a top-ranking electrochemistry journal for primary research papers and critical secondary information from authors across the world. The journal covers the entire scope of pure and applied electrochemistry, the latter encompassing (among others) energy applications, electrochemistry at interfaces (including surfaces), photoelectrochemistry and bioelectrochemistry.