Quasi-solid electrolytes with tailored lithium solvation for fast-charging lithium metal batteries

Abstract

Using quasi-solid electrolytes (QSEs) can make lithium metal batteries (LMBs) considerably safer. However, formulating QSEs with rate capabilities rivaling those of liquid electrolytes is extremely difficult. Herein, we develop a QSE characterized by safety, high conductivity above 2 × 10 −3 S cm −1 , and high lithium-ion transference number ( t Li + ) above 0.8. Computations and experiments reveal that these characteristics are achieved by adjusting the Li + solvation through a weak interaction with the polymer skeleton and strong coordination with NO 3 − . The further inclusion of fluoroethylene carbonate leads to the formation of a Li 3 N- and LiF-rich solid electrolyte interphase on the lithium metal. Consequently, QSE-based LMBs are capable of fast charging and high-power density, as well as stable and long cycling. By adjusting Li + solvation and lithium metal stability, this work rationally develops QSEs for fast-charging LMBs. • Quasi-solid electrolyte prepared with high-donor-number solvent and LiNO 3 • In-depth investigations on lithium solvation and ion transport by atomic simulations • Fast-charging lithium metal battery based on the QSE • Safe, flexible, and non-flammable pouch-type lithium metal battery Zhou et al. design a quasi-solid electrolyte with tailored lithium solvation and diffusion for fast-charging lithium metal batteries. The impact of the high-donor number solvent and LiNO 3 on solvation and charge-transfer mechanisms is studied experimentally and computationally.