Son Chae Yeong, Kim Daehyun, Jun Seo-Young, Park Haesun, Ryu Won-Hee
Department of Chemical and Biological Engineering, Sookmyung Women's University, 100 Cheongpa-ro 47-gil, Yongsan-gu, Seoul, 04310, Republic of Korea.
School of Integrative Engineering, Chung-Ang University, 84 Heukseok-ro, Dongjak-gu, Seoul, 06974, Repubilc of Korea.
Small. 2024 Dec;20(51):e2405143. doi: 10.1002/smll.202405143. Epub 2024 Aug 13.
Lithium metal batteries (LMBs) have been recognized as high-energy storage alternatives; however, problematic surface reactions due to dendritic Li growth are major obstacles to their widespread utilization. Herein, a 3-mercapto-1-propanesulfonic acid sodium salt (MPS) with asymmetrically functionalized thiol and sulfonate groups as polarizable interface-restructuring molecules is proposed to achieve rapid and longer-operating LMBs. Under a harsh condition of 5 mA cm, Li-Li symmetric cells employing MPS can be cycled over 1200 cycles, outperforming those employing other molecules symmetrically functionalized by thiol or sulfonate groups. The improved performance of the Li|VO full cell is demonstrated by introducing MPS additives. MPS additives offer advantages by flattening the surface, reconfiguring Li nucleation and growth along the stable (110) plane, and forming a durable and conductive solid-electrolyte interface layer (SEI). This study suggests an effective way to develop a new class of electrolyte additives for LMBs by controlling engineering factors, such as functional groups and polarizable properties.
锂金属电池(LMBs)已被视为高能量存储的替代方案;然而,由于锂枝晶生长导致的表面反应问题是其广泛应用的主要障碍。在此,提出一种具有不对称官能化硫醇和磺酸根基团的3-巯基-1-丙磺酸钠盐(MPS)作为可极化界面重构分子,以实现快速且运行时间更长的锂金属电池。在5 mA cm的苛刻条件下,采用MPS的锂-锂对称电池可循环超过1200次,性能优于采用硫醇或磺酸根基团对称官能化的其他分子的电池。通过引入MPS添加剂证明了锂|钒全电池性能的提升。MPS添加剂通过使表面平整、沿稳定的(110)平面重新配置锂的成核和生长以及形成耐用且导电的固体电解质界面层(SEI)而具有优势。这项研究提出了一种通过控制工程因素(如官能团和可极化性质)来开发新型锂金属电池电解质添加剂的有效方法。
