Transition metal borides, carbides, pnictides, and chalcogenides (X-ides) have emerged as
a class of materials for the oxygen evolution reaction (OER). Because of their high earth …

Electrochemical water splitting is a mature technology for hydrogen generation. Numerous
studies have focused on the development of highly efficient electrocatalysts to produce …

Dynamic reconstruction of metal sulphides during electrocatalytic oxygen evolution reaction
(OER) has hampered the acquisition of legible evidence for comprehensively understanding …

Hydrogen economy has emerged as a very promising alternative to the current hydrocarbon
economy, which involves the process of harvesting renewable energy to split water into …

Electrochemical water splitting is regarded as the most auspicious technology for renewable
sources, transport, and storage of hydrogen energy. Currently, noble Pt metal and noble …

Abstract Graphdiyne (GDY, gC n H 2 n–2), a novel two-dimensional carbon hybrid material,
has attracted significant attention owing to its unique and excellent properties. As a new type …

Electrochemical hydrogen evolution via water splitting has been regarded as a highly
promising technique for fossil-fuel substitution in the future to avoid environmental pollution …

Electrochemical reduction has emerged as a viable technology for the removal of a variety of
organic contaminants from water. Atomic hydrogen (H*) is the primary species generated in …

The unique electronic and catalytic properties emerging from low symmetry anisotropic (1D
and 2D) metal chalcogenides (MCs) have generated tremendous interest for use in next …

Hydrogen produced via water electrolysis can act as an ideal clean chemical fuel with
superb gravimetric energy density and high energy conversion efficiency, solving the …