Lithium–sulfur batteries (Li–S) have become a viable alternative to future energy storage
devices. The electrochemical reaction based on lithium and sulfur promises an extraordinary …

The importance of graphene and its derivatives for “clean energy” applications became
apparent over the last few years due to their exceptional characteristics, especially …

Lithium–sulfur batteries exhibit unparalleled merits in theoretical energy density (2600 W h
kg− 1) among next‐generation storage systems. However, the sluggish electrochemical …

Abstract Lithium-sulfur (Li–S) batteries are the current focus of attention as candidates for
next-generation energy storage systems due to their high energy density, low cost and …

Boron/oxygen co‐doped carbons (BOC) have great potentials as sulfur host materials for
lithium–sulfur batteries, because they can increase electronic conductivity and anchor …

Chirality is a universal phenomenon in nature and an essential attribute of life systems.
Chiral recognition has very important research value in many fields. Amino acids and other …

Lithium metal is considered as the most prospective electrode for next‐generation energy
storage systems due to high capacity and the lowest potential. However, uncontrollable …

Abstract Rechargeable Li–chalcogen (S, Se, and Te) batteries (LCBs) have attracted
considerable interest owing to their high theoretical capacities and energy densities …

CoS 2 exhibits abundant redox reactions, high theoretical capacity, excellent, mechanical
properties, and is regarded as a prospective electrode material. However, rational design of …

A free-standing and flexible sulfur host material composed of Mo 2 C nanoarrays growing on
the surface of carbon cloth (Mo 2 C/CC) is designed for the binder-free cathode of the …