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Unveil the origin of voltage oscillation for sodium-ion batteries operating at −40 °C

Lan‐Fang Que, Fu‐Da Yu, Jihuai Wu, Zhang Lan, Yutong Feng, Ruizheng Zhao, Zhihao Sun, Zhuo Yang, Hao Luo, Dongliang Chao

2024Proceedings of the National Academy of Sciences14 citationsDOIOpen Access PDF

Abstract

Voltage oscillation at subzero in sodium-ion batteries (SIBs) has been a common but overlooked scenario, almost yet to be understood. For example, the phenomenon seriously deteriorates the performance of Na 3 V 2 (PO 4 ) 3 (NVP) cathode in PC (propylene carbonate)/EC (ethylene carbonate)-based electrolyte at −20 °C. Here, the correlation between voltage oscillation, structural evolution, and electrolytes has been revealed based on theoretical calculations, in-/ex-situ techniques, and cross-experiments. It is found that the local phase transition of the Na 3 V 2 (PO 4 ) 3 (NVP) cathode in PC/EC-based electrolyte at −20 °C should be responsible for the oscillatory phenomenon. Furthermore, the low exchange current density originating from the high desolvation energy barrier in NVP-PC/EC system also aggravates the local phase transformation, resulting in severe voltage oscillation. By introducing the diglyme solvent with lower Na-solvent binding energy, the voltage oscillation of the NVP can be eliminated effectively at subzero. As a result, the high capacity retentions of 98.3% at −20 °C and 75.3% at −40 °C are achieved. The finding provides insight into the abnormal SIBs degradation and brings the voltage oscillation behavior of rechargeable batteries into the limelight.

Topics & Concepts

ElectrolyteOscillation (cell signaling)CathodePhase (matter)ChemistryEthylene carbonateIonPropylene carbonateVoltageMaterials scienceChemical physicsChemical engineeringElectrodePhysicsPhysical chemistryOrganic chemistryBiochemistryEngineeringQuantum mechanicsAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesAdvanced Battery Technologies Research
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