Archivio Istituzionale della RicercaHigh crystallinity in PEO-based solid polymer electrolytes limits ion transport and stability in Li-metal batteries. Two asymmetric, lowmelting thioether-TFSI Li salts were synthesized via a thiol–ene route and incorporated into PEO. They suppress crystallinity while maintaining conductivity and electrochemical performance, and reduce Al corrosion via stable passivation layer formation. The resulting SPEs have improved Li compatibility and enable stable Li||LiFePO4 cells cycling with high capacity retention and coulombic efficiency
Low Melting Non-corrosive Asymmetric Thioether-TFSI Li Salts for Solid Polymer Electrolytes / Shevtsov, Vladislav Y.; Gambino, Francesco; Nosov, Daniil R.; Guillot, Jerome; Porporato, Silvia; Elia, Giuseppe Antonio; Gerbaldi, Claudio; S Shaplov, Alexander. - In: CHEMICAL COMMUNICATIONS. - ISSN 1359-7345. - (2026).
Low Melting Non-corrosive Asymmetric Thioether-TFSI Li Salts for Solid Polymer Electrolytes
francesco gambino;Silvia Porporato;Giuseppe Antonio Elia;Claudio Gerbaldi;
2026
Abstract
High crystallinity in PEO-based solid polymer electrolytes limits ion transport and stability in Li-metal batteries. Two asymmetric, lowmelting thioether-TFSI Li salts were synthesized via a thiol–ene route and incorporated into PEO. They suppress crystallinity while maintaining conductivity and electrochemical performance, and reduce Al corrosion via stable passivation layer formation. The resulting SPEs have improved Li compatibility and enable stable Li||LiFePO4 cells cycling with high capacity retention and coulombic efficiency
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https://hdl.handle.net/11583/3010355