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Low-Temperature and Fast-Charge Sodium Metal Batteries.

Dandan YuZhenya WangJiacheng YangYingyu WangYuting LiQiaonan ZhuXinman TuDezhi ChenJunfei LiangUmedjon KhalilovHua Wang
Published in: Small (Weinheim an der Bergstrasse, Germany) (2024)
Low-temperature operation of sodium metal batteries (SMBs) at the high rate faces challenges of unstable solid electrolyte interphase (SEI), Na dendrite growth, and sluggish Na + transfer kinetics, causing a largely capacity curtailment. Herein, low-temperature and fast-charge SMBs are successfully constructed by synergetic design of the electrolyte and electrode. The optimized weak-solvation dual-salt electrolyte enables high Na plating/stripping reversibility and the formation of NaF-rich SEI layer to stabilize sodium metal. Moreover, an integrated copper sulfide electrode is in situ fabricated by directly chemical sulfuration of copper current collector with micro-sized sulfur particles, which significantly improves the electronic conductivity and Na + diffusion, knocking down the kinetic barriers. Consequently, this SMB achieves the reversible capacity of 202.8 mAh g -1 at -20 °C and 1 C (1 C = 558 mA g -1 ). Even at -40 °C, a high capacity of 230.0 mAh g -1 can still be delivered at 0.2 C. This study is encouraging for further exploration of cryogenic alkali metal batteries, and enriches the electrode material for low-temperature energy storage.
Keyphrases
  • solid state
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