A high-safety lithium-ion battery electrospun separator with SiN-assisted sulfonated poly(ether ether ketone) for regulating lithium flux.

The uncontrolled lithium (Li) dendrite growth significantly impacts the safety performance of polymer separators. To mitigate this growth, this study introduces SiN into sulfonated poly(ether Ether Ketone) (SPEEK) and prepares SiN/SPEEK composite separators via electrospinning. At the interface between the SiN/SPEEK separator and the Li anode, the Si nanowires that form impede Li dendrite growth, thereby enhancing the electrochemical performance of lithium-ion batteries (LIBs). The Li deposition test of the 10 % SiN/SPEEK separator can operate for 1000 h without short-circuiting. Additionally, the LiFePO||Li cell with the 10 % SiN/SPEEK separator shows improved initial discharge capacity (157.8 mAh g at 1C) and superior rate performance (125 mAh g at 10C). Moreover, the nano-scale SiN endows the separator with robust thermal and mechanical properties. The FLIR observations reveal that the 10 % SiN/SPEEK separator maintains uniform thermal distribution and structural integrity even at 300 °C, ensuring safe battery operation at high temperatures. The additional load of the 10 % SiN/SPEEK separator can reach 10.2 mN, which enhances the puncture resistance of the separator. This work provides a solid approach for the application of SPEEK as a high-safety and high-rate LIB separator.