电解质
材料科学
电介质
钠
金属
纳米颗粒
化学工程
碳酸钠
航程(航空)
大气温度范围
工作(物理)
离子键合
光电子学
纳米技术
电压
无机化学
电极
电化学
化学物理
介电强度
强电解质
作者
Yong Gao,Yingyu Wang,Hao Lan,L. Guo and H. Wang,Qing Chang,Shuai Dong,Jing Zhou,Jiangchun Chen,Hua Wang
标识
DOI:10.1002/adfm.202526995
摘要
ABSTRACT Sodium metal batteries (SMBs) have attracted intensive attention due to the high theoretical capacity and abundance of sodium (Na). However, severe parasitic reactions between electrolyte and Na at elevated temperatures and sluggish Na + desolvation process at cryogenic conditions significantly restrict the SMBs applicability, especially with ester‐based electrolytes. Here, a high‐voltage, carbonate ester‐compatible SMB capable of stable operation across a 100°C temperature range has been realized for the first time through dielectric confinement chemistry. Specifically, Lewis acidic dielectric nanoparticles were incorporated into a typical ester electrolyte, thereby inducing dielectric confinement regions for capturing anions and solvents. This configuration greatly decreases the proportion of free ester solvents, which reduces the undesired electrode/electrolyte contact and resultant parasitic reactions. Meanwhile, the weakened interactions between cations and solvents/anions facilitate the desolvation process and elevate ionic conductivity. Consequently, when pairing Na metal with a high voltage Na 3 V 2 (PO 4 ) 2 F 3 cathode, the fabricated SMBs retain 80% capacity retention for 3300 and 480 cycles at 25°C and 60°C, featuring 3‐fold improvements relative to those with the baseline electrolyte. Stable operation even at −40°C has also been achieved. This work provides a facile electrolyte design strategy for developing carbonate ester‐compatible SMBs over wide temperature ranges.
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