Why do we need fluorinated ether electrolytes for lithium-ion batteries?

Molecular Structure Optimization of Fluorinated Ether Electrolyte for All Temperature Fast Charging Lithium-Ion Battery New electrolytes are needed to replace commercial carbonate electrolytes to enable a wider working temperature range, higher energy density, and faster charging of lithium-ion batteries (LIBs).

What are fluorinated species used in?

Fluorinated species are now used in a wide range of battery components, including solid and liquid electrolytes, electrolyte additives, solvents, binders, and protective layers for electrodes.

Are fluorinated compounds used in lithium ion batteries?

During these periods, with the development of high energy density and safety LIBs, many progresses were made in the use of fluorinated compounds for high voltage lithium-ion batteries, Li-S batteries , and other Li metal-based batteries (LMBs) [37, 38].

What are the benefits of fluorinated battery components?

The use of fluorinated compounds in battery components offers several benefits. These include increased resistance to oxidation at high voltages, leading to batteries with improved energy density, a broad electrochemical stability window, and associated chemical inertness.

Why are fluorinated compounds important for high voltage electrolytes?

Among the technology development of high voltages electrolytes, fluorinated compounds have obtained particular attention because of their high oxidation stability, nonflammability, and excellent LiF-rich electrode/electrolyte interface stability including solid electrolyte interphase (SEI) and cathode electrolyte interphase (CEI).

Do fluorinated additives enhance battery life?

Enhanced cycle stability and extended cycle life of rechargeable batteries can be achieved through the use of fluorinated additives, which also improve safety by increasing the thermal stability of electrolytes and reducing the flammability of battery components.