Designing safe and long-life lithium-ion batteries via a
To enhance the thermal stability without impairing solid electrolyte interphase formation, we developed a solvent-relay strategy that promotes ion
Summary: Learn how to safely connect a lithium battery pack with a relay for applications like renewable energy systems, industrial backup power, and electric vehicles. Yet, despite their widespread a...
To enhance the thermal stability without impairing solid electrolyte interphase formation, we developed a solvent-relay strategy that promotes ion
Using this strategy, which was outlined in a paper published in Nature Energy, they developed a new electrolyte that could boost the durability of high-voltage LiBs, while also reducing the risk...
Chen L, Wang J, Chen M, et al. “Dragging effect” induced fast desolvation kinetics and −50 °C workable high-safe lithium batteries. Energy Storage Mater, 2024, 65: 103098
The highest specific energy in commercial primary lithium batteries is associated with the Li/CFx system. Replacing fluorinated graphite with fluorinated hard or soft carbon can improve the
Is nonflammability of electrolyte overrated within the total security efficiency of lithium ion batteries? A sobering revelation from a totally nonflammable electrolyte.
Here, we successfully address this challenge with a "relay push-escape" strategy using amphiphobic hexafluoroisopropyl methyl ether.
Summary: Learn how to safely connect a lithium battery pack with a relay for applications like renewable energy systems, industrial backup power, and electric vehicles.
Addressing these issues head-on, a recent groundbreaking study has revealed a novel solvent-relay strategy, promising not only enhanced