Multifunctional Cross-Linked Polymeric Membranes for Safe, High-Performance Lithium Batteries

摘要

Lithium ion batteries (LIBs) are the dominant power source in portable device technology and are poised to play a similar, important role in electrified transportation systems. While significant strides have been made in recent years in evolving the cathode chemistry and electrolyte formulations to meet higher energy storage demands, almost all contemporary LIB designs rely on flammable electrolyte solvents that are fundamentally unsafe. Here we report a facile UV cross-linking chemistry that can be used to create ion-conducting polymer networks containing dangling chains that impart specific, desired functionalities to liquid electrolytes. We show in particular that incorporation of monofunctional sulfonate and phosphate species in a photo-/heat-initiated cross-linking reaction of a multifunctional oligomer provides a straightforward route to mechanically robust membranes able to transform both transport properties and flammability of standard liquid electrolytes incorporated in their pores. We evaluate the physical and mechanical properties of the materials and on that basis report that dangling functional groups in the membrane pores are able to improve electrolyte safety features, without compromising performance in electrochemical cells. Such cross-linked membranes with different pendant groups covalently tethered to an ion-conducting framework are argued to provide an important platform for more broadly enhancing lithium battery safety and performance.