Sulfonated polymers have long been used as proton-conducting materials in fuel cells, and their ionic transport features are highly attractive for electrolytes in lithium-ion/metal batteries (LIBs/LMBs). However, most studies are still based on a preconceived notion of using them directly as polymeric ionic carriers, which precludes exploring them as nanoporous media to construct efficient lithium ions (Li+ ) transport network. Here, effective Li+ -conducting channels realized by swelling nanofibrous Nafion is demonstrated, which is a classical sulfonated polymer in fuel cells. The sulfonic acid groups, interact with LIBs liquid electrolytes to form porous ionic matrix of Nafion and assist partial desolvation of Li+ -solvates to further enhance Li+ transport. Li-symmetric cells and Li-metal full cells (Li4 Ti5 O12 or high-voltage LiNi0.6 Co0.2 Mn0.2 O2 as a cathode) with such membrane show excellent cycling performance and stabilized Li-metal anode. The finding provides a strategy to convert the vast sulfonated polymer family into efficient Li+ electrolyte, promoting the development of high-energy-density LMBs.
Keywords: Nafion; lithium metal batteries; nanoporous materials; sulfonated polymers; theoretical calculation.
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