Ab initio molecular dynamics (AIMD) is an important technique for studying ion transport
within solid electrolyte and interface effects between electrode and electrolyte, which is …

The slow redox kinetics of lithium–sulfur batteries severely limit their application, and sulfur
utilization can be effectively enhanced by designing different cathode sulfur host materials …

The use of lithium–sulfur batteries under high sulfur loading and low electrolyte
concentrations is severely restricted by the detrimental shuttling behavior of polysulfides and …

Since 1990, commercial lithium-ion batteries have made significant strides, approaching
their theoretical performance limits, albeit with escalating costs. To address these …

Li dendrite and the shuttle effect are the two primary hindrances to the commercial
application of lithium–sulfur batteries (LSBs). Here, a multifunctional separator has been …

Abstract Lithium-sulfur (Li-S) batteries are regarded as the next-generation battery systems
for their high theoretical specific capacity andenvironmental friendliness. However, some …

For pursuing the ambitious goals in the burgeoning electric vehicles, portable electronic
devices, and energy storage sectors, Li‐ion batteries (LIBs) are considered as one of the …

A crucial approach to enhancing the electrochemical performance of lithium-sulfur batteries
(LSBs) is to develop a dependable sulfur host material possessing reasonable structure …

Commercial lithium-ion batteries generate significant carbon footprint during the
procurement of relatively scarce raw materials of Li, Co, Ni etc, manufacturing of cell, and …

Lithium–sulfur electrochemistry is a promising charge-storage solution for high-energy-
density requirements. However, its cyclability is limited by the use of insulated active …