Sodiophilic Interface Induces a NaF-Rich Solid Electrolyte Interface for Stable Sodium–Metal Batteries under Harsh Conditions
Harbin Institute of Technology · Advanced Conductor Technologies (United States) · +4 more institutions
Abstract
The development of sodium–metal batteries faces challenges, particularly Na dendrite growth resulting from uneven Na plating/stripping and side reactions between Na metal and the electrolyte. Herein, a Ag interfacial layer on the sodium metal surface is proposed. Benefiting from its excellent sodiophilicity, the Ag coating works as nucleation sites that guide uniform Na deposition. Simultaneously, the excellent conductivity of Ag ensures a homogeneous electric field distribution and Na ion flux, which also contribute to uniform Na deposition. Furthermore, the strong interaction between Ag and PF6– induces the construction of a NaF-rich solid electrolyte interphase, which contributes to stabilizing the…
Citation impact
- FWCI
- 25.66
- Percentile
- 100%
- References
- 45
Authors
8- WZWenjia Zhang
Harbin Institute of Technology, Advanced Conductor Technologies (United States), Henan Academy of Sciences, Brazilian National Association of Graduate Programs in Communication
- QLQiongqiong LuCorresponding
Nankai University, Advanced Conductor Technologies (United States), Henan Academy of Sciences
- GSGuangtong Sun
Advanced Conductor Technologies (United States), Henan Academy of Sciences, Dalian Maritime University
- ZCZhonghui Chen
Harbin Institute of Technology, Brazilian National Association of Graduate Programs in Communication
- PYPengfei Yue
Advanced Conductor Technologies (United States), Henan Academy of Sciences
Topics & keywords
- Electrolyte
- Interface (matter)
- Sodium
- Metal
- Materials science
- Chemical engineering
- Inorganic chemistry
- Chemistry