Trace LiBF<sub>4</sub> Enabling Robust LiF-Rich Interphase for Durable Low-Temperature Lithium-Ion Pouch Cells
Nan Qin, Jing Chen, Yanyan Lu, Yifan Li, Wenlong Cai, Jiantao Li, Cunman Zhang, Zonghai Chen, Jim P. Zheng, Liming Jin
Abstract
Lithium-ion batteries (LIBs) with electrolytes containing lithium tetrafluoroborate (LiBF 4 ) can achieve large capacity retention under low temperature, but the accompanying rapid capacity decay inhibits commercialization. Here, the impact of LiBF 4 as a supplemental salt to LiPF 6 is systematically investigated using low ethylene carbonate (EC)-content electrolytes, along with a low-melting-point cosolvent. It is found that rational adjustment of the amount of LiBF 4 could not only regulate the interactions of anions and solvents in Li + solvation sheaths but also tune the composition and morphology of solid electrolyte interphase (SEI). It is worth noting that electrolytes with trace amount of LiBF 4 (0.05 M) show synergetic interaction between PF 6 – and Li + and decreased interaction between EC and Li +, achieving a dense and LiF-rich SEI, which enables a 200 mAh pouch cell with less gas generation, long-lived cycling, and higher low-temperature capacity, simultaneously. This work provides new insight into utilizing trace LiBF 4 for stable interface construction of durable low-temperature LIBs.