Abstract Lithium–sulfur (Li–S) batteries have been regarded as a promising next‐generation
energy storage technology for their ultrahigh theoretical energy density compared with those …

Textile devices have benefited from the discovery of new conductive materials and
innovations in textile device design. These devices include textile‐based supercapacitors …

Abstract Metal–sulfur (M–S) batteries are promising energy‐storage devices due to their
advantages such as large energy density and the low cost of the raw materials. However, M …

Fe3O4 is one of the promising anode materials in Li-ion batteries and a potential alternative
to graphite due to the high specific capacity, natural abundance, environmental benignity …

Solid-state batteries (SSBs) have attracted many attentions due to its higher energy density
and improved safety. As one of the most promising solid electrolytes, garnet Li 7 La 3 Zr 2 O …

Transition metal sulfide‐based anodes usually suffer from huge volumetric change and
sluggish reaction kinetics, hindering their application for long‐term and high‐power/energy …

Li-S batteries have attracted great attention from academia and industry because of their
high theoretical capacity and energy density, arising from the multi-electron electrochemical …

Flexible and free-standing electrospun nanofibres have been used as electrode materials in
electrochemical energy storage systems due to their versatile properties, such as …

High-performance sulfur cathodes characterized by high loading and content of active
material and stable electrochemical properties with a lean electrolyte hold the key to …

The next-generation energy storage systems such as fuel cells, metal-air batteries, and
alkali metal (Li, Na)-chalcogen (S, Se) batteries have received increasing attention owing to …