Shoumeng Yang
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View article: Anion‐Enriched Solvation Engineering of Ester‐Based Electrolytes for Sodium Metal Batteries at −40 °C
Anion‐Enriched Solvation Engineering of Ester‐Based Electrolytes for Sodium Metal Batteries at −40 °C Open
Sodium metal batteries (SMBs) are recognized for their high theoretical capacity, abundant availability, and low electrochemical potential. However, the slow Na + de‐solvation kinetics and the poor solid electrolyte interface (SEI) of comm…
View article: Initially anode-free sodium metal battery enabled by strain-engineered single-crystal aluminum substrate with (100)-preferred orientation
Initially anode-free sodium metal battery enabled by strain-engineered single-crystal aluminum substrate with (100)-preferred orientation Open
Constructing high cycling stability and rate performance under limited or ideally zero sodium excess, namely initially anode-free design, which can obtain the ultimate energy density of sodium metal batteries, is highly desired yet remains…
View article: Multifunctional High‐Entropy Alloy Nanolayer Toward Long‐Life Anode‐Free Sodium Metal Battery
Multifunctional High‐Entropy Alloy Nanolayer Toward Long‐Life Anode‐Free Sodium Metal Battery Open
Anode‐free sodium metal batteries (AFSMBs) hold great promise due to high energy density and low cost. Unfortunately, their practical applications are hindered by poor cycling stability, which is attributed to Na dendrite growth and inferi…
View article: Advanced Electrode Materials for Low‐Temperature Na Storage
Advanced Electrode Materials for Low‐Temperature Na Storage Open
Sodium‐ion batteries have drawn worldwide attention as ideal candidates for the upcoming generation of large‐scale electrical energy storage devices due to the low cost and abundance of sodium. Due to its unique electrochemical and chemica…
View article: Inorganic All‐Solid‐State Sodium Batteries: Electrolyte Designing and Interface Engineering
Inorganic All‐Solid‐State Sodium Batteries: Electrolyte Designing and Interface Engineering Open
Inorganic all‐solid‐state sodium batteries (IASSSBs) are emerged as promising candidates to replace commercial lithium‐ion batteries in large‐scale energy storage systems due to their potential advantages, such as abundant raw materials, r…