Prelithiation: a crucial strategy for boosting the practical application of next-generation lithium ion battery
With the urgent market demand for high-energy-density batteries, the alloy-type or
conversion-type anodes with high specific capacity have gained increasing attention to …
conversion-type anodes with high specific capacity have gained increasing attention to …
Boost sodium-ion batteries to commercialization: Strategies to enhance initial Coulombic efficiency of hard carbon anode
Sodium-ion batteries (SIBs) are regarded as one of the most promising candidates for large-
scale energy storage system due to low cost and inexhaustible sodium reserves. The …
scale energy storage system due to low cost and inexhaustible sodium reserves. The …
Roll-to-roll prelithiation of lithium-ion battery anodes by transfer printing
Prelithiation can boost the performance of lithium-ion batteries (LIBs). A cost-effective
prelithiation strategy with high quality and high industrial compatibility is urgently required …
prelithiation strategy with high quality and high industrial compatibility is urgently required …
[HTML][HTML] Controlling Li deposition below the interface
The desire for high-energy-density batteries calls for the revival of the Li metal anode.
However, its application is hindered by enormous challenges associated with Li …
However, its application is hindered by enormous challenges associated with Li …
Progress and challenges of prelithiation technology for lithium‐ion battery
Z Huang, Z Deng, Y Zhong, M Xu, S Li, X Liu… - Carbon …, 2022 - Wiley Online Library
Prelithiation technology is widely considered a feasible route to raise the energy density and
elongate the cycle life of lithium‐ion batteries. The principle of prelithiation is to introduce …
elongate the cycle life of lithium‐ion batteries. The principle of prelithiation is to introduce …
Challenges of prelithiation strategies for next generation high energy lithium-ion batteries
X Min, G Xu, B Xie, P Guan, M Sun, G Cui - Energy Storage Materials, 2022 - Elsevier
To improve the energy density of lithium ion batteries (LIBs), one of the most commonly used
strategy is developing novel anode materials with higher specific capacity than graphite …
strategy is developing novel anode materials with higher specific capacity than graphite …
Prelithiation: A Critical Strategy Towards Practical Application of High‐Energy‐Density Batteries
To meet the demand for high‐energy‐density batteries, alloy‐type and conversion‐type
anode materials have attracted growing attention due to their high specific capacity …
anode materials have attracted growing attention due to their high specific capacity …
Double‐layer polymer electrolyte for high‐voltage all‐solid‐state rechargeable batteries
No single polymer or liquid electrolyte has a large enough energy gap between the empty
and occupied electronic states for both dendrite‐free plating of a lithium‐metal anode and a …
and occupied electronic states for both dendrite‐free plating of a lithium‐metal anode and a …
Surface fluorination of reactive battery anode materials for enhanced stability
Significant increases in the energy density of batteries must be achieved by exploring new
materials and cell configurations. Lithium metal and lithiated silicon are two promising high …
materials and cell configurations. Lithium metal and lithiated silicon are two promising high …
Pre‐lithiation strategies for next‐generation practical lithium‐ion batteries
Next‐generation Li‐ion batteries (LIBs) with higher energy density adopt some novel anode
materials, which generally have the potential to exhibit higher capacity, superior rate …
materials, which generally have the potential to exhibit higher capacity, superior rate …