posted on 2022-06-07, 15:34authored byZiyu Chen, Bin Wang, Yan Li, Fengwei Bai, Yongchao Zhou, Chengzong Li, Tao Li
The inorganic-rich solid electrolyte
interphase (SEI) has attracted
wide attention due to its good compatibility with the lithium (Li)
metal anode. Herein, a stable solvent-derived inorganic-rich SEI is
constructed from a hydrofluoroether-diluted low-concentration electrolyte,
which simultaneously possesses the merits of nonflammability and low
cost (0.5 M LiPF6). The addition of hydrofluoroether enhances
the coordination strength between Li+ and solvents, altering
the decomposition path of solvents to yield more Li2O.
The abundant Li2O crystals endow the SEI with improved
passivating ability and ion conductivity. The 30 μm Li|NCM523
(3.8 mAh cm–2) batteries with solvent-derived Li2O-rich SEI deliver 96.1% capacity retention after 200 cycles.
Notably, a 1.1 Ah Li|NCA pouch cell delivers an energy density of
374 Wh kg–1 and achieves 45 stable cycles. This
study points out that tuning the decomposition of solvents provides
a new approach to construct stable inorganic-rich SEI for practical
Li-metal batteries.