Despite progress of functionalized separator in preventing the shuttle effect and promoting
the sulfur utilization, the precise and non-destructive investigation of structure-function …

The severe shuttling behavior in the discharging–charging process largely hampers the
commercialization of lithium–sulfur (Li–S) batteries. Herein, we design a bifunctional …

Functional separators have played important roles in improving the electrochemical
performance of lithium–sulfur (Li–S) batteries by addressing the key issues of both the sulfur …

An elaborately modified separator capable of simultaneously blocking polysulfide shuttle
and promoting Li+ ion transport is crucial for developing high-energy-density lithium–sulfur …

The lithium–sulfur (Li–S) battery chemistry has attracted great interest in the last decade
because of its outstanding theoretical gravimetric energy density compared to the state-of …

Despite being a promising energy storage system due to their high theoretical energy
density of 2567 W h kg− 1 and economic applicability, liquid electrolyte based lithium–sulfur …

The “shuttle effect” and sluggish conversion reaction kinetics of polysulfides seriously hinder
the practical application of Li‐S batteries. In this study, nano‐sized LaMnO3 (N‐LMO) with …

Due to its high theoretical specific capacity, the lithium/sulfur battery is one of the most
promising candidates for replacing current lithium-ion batteries. In this work, we investigate …

Due to the high theoretical energy density, lithium–sulfur batteries have been regarded as
one of the secondary cells with promising development prospects. Here, the vacuum …

Transition metal oxides (TMOs) are recognized as high‐efficiency electrocatalyst systems for
restraining the shuttle effect in lithium‐sulfur (Li− S) batteries, owing to their robust …