Sluggish reaction kinetics and severe shuttling effect of lithium polysulfides seriously hinder
the development of lithium‐sulfur batteries. Heterostructures, due to unique properties, have …

Biomass is considered as a promising source to fabricate functional carbon materials for its
sustainability, low cost, and high carbon content. Biomass‐derived‐carbon materials (BCMs) …

Single‐atom metal catalysts (SACs) are used as sulfur cathode additives to promote battery
performance, although the material selection and mechanism that govern the catalytic …

Seeking an electrochemical catalyst to accelerate the liquid‐to‐solid conversion of soluble
lithium polysulfides to insoluble products is crucial to inhibit the shuttle effect in lithium–sulfur …

Lithium-sulfur batteries are hampered by the shuttle effect and sluggish conversion kinetics
of polysulfide, and give rise to serious capacity decay and poor rate performance, which is …

The shuttling of soluble lithium polysulfides between the electrodes leads to serious capacity
fading and excess use of electrolyte, which severely bottlenecks practical use of Li‐S …

Accelerated conversion by catalysis is a promising way to inhibit shuttling of soluble
polysulfides in lithium–sulfur (Li–S) batteries, but most of the reported catalysts work only for …

Abstract Lithium sulfur (Li S) batteries possess high theoretical capacity and energy
density, holding great promise for next generation electronics and electrical vehicles …

Transition metal oxides are a class of promising host materials of sulfur for lithium-sulfur (Li-
S) batteries due to their robust polysulfide adsorption, and catalytic effect on sulfur redox …

The detrimental shuttle effect in lithium–sulfur batteries mainly results from the mobility of
soluble polysulfide intermediates and their sluggish conversion kinetics. Herein, presented …