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Stable operation of rechargeable lithium-based batteries at low temperatures is important for cold-climate applications, but is
The drop in temperature largely reduces the capacity and lifespan of batteries due to sluggish Li-ion (Li +) transportation and uncontrollable Li plating
The 40 years development of low-temperature electrolytes for rechargeable batteries has been reviewed. Critical insights are given from both underlying mechanistic
In general, there are four threats in developing low-temperature lithium batteries: 1) low ionic conductivity of bulk electrolyte, 2) increased resistance of solid
Abstract. Li-based liquid metal batteries (LMBs) have attracted widespread attention due to their potential applications in sustainable energy storage; however, the high operating temperature limits their practical applications. Herein, a new chemistry─LiCl–KCl electrolyte and Sb–Bi–Sn (Pb) positive electrode─is reported to
Owing to their several advantages, such as light weight, high specific capacity, good charge retention, long-life cycling, and low toxicity, lithium-ion batteries
Many individual processes could result in capacity loss of LIBs at low temperatures; however, most of them are associated with the liquid electrolyte inside the battery. In this review, we first discuss the main limitations in developing liquid electrolytes used in low-tem
Lithium-ion batteries (LIBs) have become well-known electrochemical energy storage technology for portable electronic gadgets and electric vehicles in recent
To get the most energy storage out of the battery at low temperatures, improvements in electrolyte chemistry need to be coupled with optimized electrode
This study demonstrated design parameters for low–temperature lithium metal battery electrolytes, which is a watershed moment in low–temperature battery
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