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Refined Electrolyte and Interfacial Chemistry toward Realization of High-Energy Anode-Free Rechargeable Sodium Batteries

Yuying Zhang, Chaohui Zhang, Yu‐Jie Guo, Yu-Jie Guo, Min Fan, Yao Zhao, Hua Guo, Wenpeng Wang, Shuang‐Jie Tan, Ya‐Xia Yin, Fuyi Wang, Sen Xin, Yu‐Guo Guo, Yu‐Guo Guo, Li‐Jun Wan

2023Journal of the American Chemical Society134 citationsDOI

Abstract

Anode-free rechargeable sodium batteries represent one of the ultimate choices for the ‘beyond-lithium’ electrochemical storage technology with high energy. Operated based on the sole use of active Na ions from the cathode, the anode-free battery is usually reported with quite a limited cycle life due to unstable electrolyte chemistry that hinders efficient Na plating/stripping at the anode and high-voltage operation of the layered oxide cathode. A rational design of the electrolyte toward improving its compatibility with the electrodes is key to realize the battery. Here, we show that by refining the volume ratio of two conventional linear ether solvents, a binary electrolyte forms a cation solvation structure that facilitates flat, dendrite-free, planar growth of Na metal on the anode current collector and that is adaptive to high-voltage Na (de)intercalation of P2-/O3-type layered oxide cathodes and oxidative decomposition of the Na 2 C 2 O 4 supplement. Inorganic fluorides, such as NaF, show a major influence on the electroplating pattern of Na metal and effective passivation of plated metal at the anode–electrolyte interface. Anode-free batteries based on the refined electrolyte have demonstrated high coulombic efficiency, long cycle life, and the ability to claim a cell-level specific energy of >300 Wh/kg.

Topics & Concepts

AnodeElectrolyteChemistryCathodeFaraday efficiencyElectrochemistryInorganic chemistryBattery (electricity)Chemical engineeringOxideElectrodeOrganic chemistryPower (physics)EngineeringPhysical chemistryPhysicsQuantum mechanicsAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesInorganic Chemistry and Materials