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Zn(TFSI)2-Mediated Ring-Opening Polymerization for Electrolyte Engineering Toward Stable Aqueous Zinc Metal Batteries

Zhenjie Liu, Murong Xi, Rui Sheng, Yudai Huang, Juan Ding, Zhouliang Tan, Jiapei Li, Wenjun Zhang, Yonggang Wang

2025Nano-Micro Letters15 citationsDOIOpen Access PDF

Abstract

Abstract Practical Zn metal batteries have been hindered by several challenges, including Zn dendrite growth, undesirable side reactions, and unstable electrode/electrolyte interface. These issues are particularly more serious in low-concentration electrolytes. Herein, we design a Zn salt-mediated electrolyte with in situ ring-opening polymerization of the small molecule organic solvent. The Zn(TFSI) 2 salt catalyzes the ring-opening polymerization of (1,3-dioxolane (DOL)), generating oxidation-resistant and non-combustible long-chain polymer (poly(1,3-dioxolane) (pDOL)). The pDOL reduces the active H 2 O molecules in electrolyte and assists in forming stable organic–inorganic gradient solid electrolyte interphase with rich organic constituents, ZnO and ZnF 2 . The introduction of pDOL endows the electrolyte with several advantages: excellent Zn dendrite inhibition, improved corrosion resistance, widened electrochemical window (2.6 V), and enhanced low-temperature performance (freezing point = − 34.9 °C). Zn plating/stripping in pDOL-enhanced electrolyte lasts for 4200 cycles at 99.02% Coulomb efficiency and maintains a lifetime of 8200 h. Moreover, Zn metal anodes deliver stable cycling for 2500 h with a high Zn utilization of 60%. A Zn//VO 2 pouch cell assembled with lean electrolyte (electrolyte/capacity (E/C = 41 mL (Ah) −1 ) also demonstrates a capacity retention ratio of 92% after 600 cycles. These results highlight the promising application prospects of practical Zn metal batteries enabled by the Zn(TFSI) 2 -mediated electrolyte engineering.

Topics & Concepts

ElectrolytePolymerizationElectrochemistryZincChemical engineeringMaterials scienceInorganic chemistryChemistryElectrodePolymerOrganic chemistryMetallurgyEngineeringPhysical chemistryAdvanced battery technologies researchPerovskite Materials and ApplicationsAdvanced Battery Materials and Technologies
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