Application of super-concentrated phosphonium based ionic liquid electrolyte for anode-free lithium metal batteries

Anode-free lithium batteries offer an excellent pathway to achieving a dramatic boost in energy density over current lithium-ion technology by eliminating the anode intercalation material during cell assembly. However, cycle stability remains a critical issue given that the inherent negative electrode capacity to positive electrode capacity ratio (N/P ratio) of similar to 1 magnifies the performance effects of any coulombic inefficiencies in the lithium deposition/dissolution processes. Ionic liquid electrolytes have a demonstrated ability to support lithium metal cycling in lithium metal batteries through achieving high coulombic efficiencies. In this work, the phosphonium bis(fluorosulfonyl)imide super-concentrated ionic liquid electrolyte (3.2 mol kg(-1)) was cycled with high loading cathodes at 50 degrees C, representing the first report of an ionic liquid electrolyte being incorporated into an anode-free lithium battery. Li||Cu half-cells yield a high coulombic efficiency of 99.4% with 100% excess lithium at 1 mA cm(-2). The significance of substrate preparation was shown by performing a simple micro-patterning of the copper current collector which increased the capacity retention by 47.3% compared to cycling on plain copper foil in LFP||Cu cells. The lithium deposits initially exhibited a columnar structure but gradually lost this preferred morphology due to the growth of a dead lithium network during cycling. Single crystal NMC 622 (4.6 mA h cm(-2)) cathodes were cycled in an anode-free full cell configuration to yield an average coulombic efficiency of 99.4% with 53% capacity retention after 100 cycles. These cells delivered an initial stack specific energy approaching 600 W h kg(-1); over double that of current state-of-the-art lithium-ion batteries, at both high charge and discharge current density (1.75 mA cm(-2)). These results, among the best anode-free lithium cell results reported in the literature to date, indicate that the phosphonium bis(fluorosulfonyl)imide super-concentrated ionic liquid electrolytes are a promising candidate to support a high-performance anode-free cell chemistry.

Automated summary

Anode-free lithium batteries utilizing super-concentrated ionic liquid electrolytes have shown promising results in achieving high energy density and coulombic efficiency, with the use of micro-patterning on the copper current collector and controlling lithium deposition morphology playing crucial roles in improving battery performance. The cells demonstrated a significant increase in specific energy compared to state-of-the-art lithium-ion batteries, showcasing the potential of such electrolytes in supporting high-performance anode-free cell chemistry.