As an analog of graphite, graphitic carbon nitride (gC 3 N 4) has been the hotspot in the
materials science for its unique electronic structure. With medium band gap as well as …

With the development of renewable energy and electrified transportation, electrochemical
energy storage will be more important in the future than it has ever been in the past …

Rechargeable lithium air (Li–air) batteries, especially the non-aqueous type, are considered
the most promising energy storage and conversion device candidates for use in future …

Lithium/air is a fascinating energy storage system. The effective exploitation of air as a
battery electrode has been the long‐time dream of the battery community. Air is, in principle …

Heteroatom modification represents one of the largest studied areas of research related to
nanostructured carbon materials, with integrated applications stretching from energy …

Electrical energy storage and conversion is vital to a clean, sustainable, and secure energy
future. Among all electrochemical energy storage devices, metal‐air batteries have potential …

Mesoporous carbons (MCs) are highly porous materials, which offer high surface area and
higher electrochemical performance than traditional carbon materials. Doped carbons are …

A Li‐air battery could potentially provide three to five times higher energy density/specific
energy than conventional batteries and, thus, enable the driving range of an electric vehicle …

Flexible metal–air batteries, which are a promising candidate for implantation in wearable or
rolling‐up electronic devices, have attracted much attention recently due to their relatively …

The Li–air battery has recently emerged as a potentially transformational energy storage
technology for both transportation and stationary energy storage applications because of its …