Electrochemical water splitting is the most promising process to produce carbon-neutral
hydrogen as an energy carrier, and hydrogen evolution reaction (HER) electrocatalysts are …

Hydrogen evolution by means of electrocatalytic water‐splitting is pivotal for efficient and
economical production of hydrogen, which relies on the development of inexpensive, highly …

The quest for nanoscaling has extended beyond traditional metal oxides (1-4) and metal
(0),(5) as exemplified by the huge development of “quantum dots” chalcogenide …

As a key structural parameter, phase depicts the arrangement of atoms in materials.
Normally, a nanomaterial exists in its thermodynamically stable crystal phase. With the …

Templating is one of the most important techniques for the controlled synthesis of
nanostructured materials. This powerful tool uses a pre-existing guide with desired …

The depletion of the unsustainable fossil fuels drives the exploration of renewable and clean
energy. Hydrogen gas, as the potential alternative for the future energy supply, is now …

The stringent reaction conditions for an effective Fenton reaction (pH range of 3–4) hinders
its application in cancer therapy. Therefore, how to improve the efficiency of the Fenton …

Metallic-like transition metal-based nanostructures (MLTMNs) has recently arisen as robust
and highly efficient materials for energy storage and conversion. Owning to extraordinary …

Low‐cost and resourceful transition metal phosphides (TMPs) have gradually received wide
acceptance in the energy industry through exhibiting comparable catalytic activity and long …

Nanostructured transition-metal phosphides have recently emerged as Earth-abundant
alternatives to platinum for catalyzing the hydrogen-evolution reaction (HER), which is …