Interfacial‐catalysis‐enabled layered and inorganic‐rich SEI on hard carbon anodes in ester electrolytes for sodium‐ion batteries
M Liu, F Wu, Y Gong, Y Li, Y Li, X Feng, Q Li… - Advanced …, 2023 - Wiley Online Library
Constructing a homogenous and inorganic‐rich solid electrolyte interface (SEI) can
efficiently improve the overall sodium‐storage performance of hard carbon (HC) anodes …
efficiently improve the overall sodium‐storage performance of hard carbon (HC) anodes …
Toward high performance anodes for sodium-ion batteries: from hard carbons to anode-free systems
Sodium-ion batteries (SIBs) have been deemed to be a promising energy storage
technology in terms of cost-effectiveness and sustainability. However, the electrodes often …
technology in terms of cost-effectiveness and sustainability. However, the electrodes often …
Research progress of co-intercalation mechanism electrolytes in sodium-ion batteries
R Cui, Y Ma, X Gao, W Wang, J Wang, Z Xing… - Energy Storage …, 2024 - Elsevier
This paper systematically explores the key issue in the field of sodium-ion battery research–
the co-intercalation mechanism, which primarily involves the intricate interactions among …
the co-intercalation mechanism, which primarily involves the intricate interactions among …
Unraveling the mechanism of different kinetics performance between ether and carbonate ester electrolytes in hard carbon electrode
X Yi, X Li, J Zhong, S Wang, Z Wang… - Advanced Functional …, 2022 - Wiley Online Library
Ether electrolytes exhibit better rate kinetics than carbonate ester electrolytes when used in
several kinds of anode materials, especially in hard carbon (HC) for sodium‐ion batteries …
several kinds of anode materials, especially in hard carbon (HC) for sodium‐ion batteries …
Interface Engineering of Fe7S8/FeS2 Heterostructure in situ Encapsulated into Nitrogen-Doped Carbon Nanotubes for High Power Sodium-Ion Batteries
Heterostructure engineering combined with carbonaceous materials shows great promise
toward promoting sluggish kinetics, improving electronic conductivity, and mitigating the …
toward promoting sluggish kinetics, improving electronic conductivity, and mitigating the …
A High‐Performance Alloy‐Based Anode Enabled by Surface and Interface Engineering for Wide‐Temperature Sodium‐Ion Batteries
Alloy‐based anodes have shown great potential to be applied in sodium‐ion batteries (SIBs)
due to their high theoretical capacities, suitable working potential, and abundant earth …
due to their high theoretical capacities, suitable working potential, and abundant earth …
Surface-dominated ultra-stable sodium and potassium storage enabled by N/P/O tri-doped porous carbon
Sodium-ion batteries and potassium-ion batteries are attracting considerable attention for
basic research and practical applications. However, the anode side is the dominative …
basic research and practical applications. However, the anode side is the dominative …
Nanocomposite hydrogels flexible sensors with functional cellulose nanocrystals for monitoring human motion and lactate in sweat
P Li, Z Ling, X Liu, L Bai, W Wang, H Chen… - Chemical Engineering …, 2023 - Elsevier
Cellulose nanocrystals (CNCs) are envisioned as superior building blocks for the
manufacture of green functional materials and show great potential in flexible electronics …
manufacture of green functional materials and show great potential in flexible electronics …
Uncovering the Redox Shuttle Degradation Mechanism of Ether Electrolytes in Sodium‐Ion Batteries and its Inhibition Strategy
X Yi, X Li, J Zhong, Z Wang, H Guo, W Peng, J Duan… - Small, 2023 - Wiley Online Library
Ether‐based electrolytes exhibit excellent performance when applied in different anode
materials of sodium ion batteries (SIBs), but their exploration on cathode material is deficient …
materials of sodium ion batteries (SIBs), but their exploration on cathode material is deficient …
Multi boron-doping effects in hard carbon toward enhanced sodium ion storage
P Zheng, W Zhou, Y Mo, B Zheng, M Han… - Journal of Energy …, 2025 - Elsevier
Hard carbon (HC) has been considered as promising anode material for sodium-ion
batteries (SIBs). The optimization of hard carbon's microstructure and solid electrolyte …
batteries (SIBs). The optimization of hard carbon's microstructure and solid electrolyte …