Li-Ions Pre-intercalation Strategy of Manganese Oxides for Capacitive Deionization-Based Selective Lithium Extraction From Low-grade Brine.

In this work, Li preintercalated λ-LiMnO with tunable lithium content is synthesized, which exhibited excellent electrochemical performance and dual-mode electrochemical storage behavior. Double-layer capacitive and diffusion-controlled Faradaic processes play a role in the charge-discharge process, leading to an enhanced lithium selective adsorption capacity. When employed in hybrid capacitive deionization (HCDI), the λ-LiMnO obtains a Li adsorption capacity of 33.68 mg g in 32.74 mg L Li ion solution and low energy consumption of 0.19 Wh g. Moreover, the λ-LiMnO electrode exhibited outstanding cycling stability, with a significant capacity retention rate of 80% and a manganese mass dissolution rate of 1.2% over 100 intercalation/deintercalation cycles. λ-LiMnO achieved outstanding lithium selectivity with a separation factor ≈32.7 at a Mg/Li molar ratio of 30 in synthetic brine. Importantly, λ-LiMnO achieved a high Li adsorption capacity and good selectivity in Lop Nor, the low-grade original brine of the XieLi salt flats, making it a candidate electrode for lithium extraction from low-grade original brine. The pre-intercalation strategy offers a viable option for rationalizing other intercalation electrode materials for electrochemical lithium extraction from low-grade original brine.