Download This PaperConstruction of High-Throughput Interface Phase Using Boron Containing Anions to Regulate Solvation Structure and Achieve High-Performance Sodium Metal Batteries
27 Pages Posted: 31 Dec 2024
Abstract
The commercialisation of sodium metal batteries (SMBs) remains challenging due to the instability of the solid electrolyte interphase (SEI) and cathode electrolyte interphase (CEI), resulting in rapid capacity degradation under harsh cycling conditions. In this paper, a novel electrolyte additive, sodium difluoro-oxalate borate (NaDFOB), was developed to address these challenges. NaDFOB effectively improved the stability of the SEI/CEI by forming a solid electrolyte interphase enriched in NaF and B2O3. This modification was shown to significantly inhibit cathodic transition metal leaching and anodic sodium dendrite growth. The capacity retention of HC || NaNi0.33Fe0.33Mn0.33O2 (NFM) cylindrical battery containing BE-NaDFOB electrolyte was 94.1% after 1000 cycles of charging and discharging at 0.5 C. The electrolyte with BE-NaDFOB electrolyte is capable of stable operation at –40oC~60oC in Na || NFM111 batteries. This work explained the effect of the introduction of the additive NaDFOB on the solvation structure of the bulk electrolyte, the decomposition mechanism of NaDFOB that formed a uniform solid electrolyte interface film (CEI/SEI) on the surface of the anode and cathode, and the rapid desolvation of sodium ions. The rapid desolvation of sodium ions contributed to the formation of a high-flux SEI.
Keywords: Sodium metal battery, electrolyte, solvation structure, interface properties, wide temperature range
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