One-pot synthesis of crosslinked polymer electrolyte beyond 5V oxidation potential for all-solid-state lithium battery

摘要

A new crosslinked copolymer electrolyte is prepared with a simply method. The optimal electrolyte presents a maximum conductivity of 1.15 x 10(-4) S cm(-1) at 60 degrees C. Especially, this new electrolyte presents an outstanding electrochemical stability not only for a wide electrochemical window (0-5.1 V) but also for a long-term compatibility with the Li metal. Due to electrochemical stability, LiMn0.2 Fe0.8PO4 is selected as cathode material cycling between 3 V and 4.25 V. Moreover, a convenient integration method is used in this work to enhance the interfacial contact between cathode and electrolyte. Finally, the all-solid-state battery LiMn0.2 Fe0.8PO4/Li shows a maximum capacity of 161.1 mAh g(-1) and an excellent capacity retention ratio of 94.5% after 100 cycles. This new crosslinked polymer electrolyte may provide useful insights for introducing high voltage cathode material rather than LiFePO4 only into solid polymer electrolytes system.