Over the years, significant advances have been made to boost the efficiency of water
splitting by carefully designing economic electrocatalysts with augmented conductivity, more …

Intermetallic compounds exhibit attractive electronic, physical, and chemical properties,
especially in terms of a high density of active sites and enhanced conductivity, making them …

Transition metals, in particular noble metals, are the most common species in metal‐
mediated water electrolysis because they serve as highly active catalytic sites. In many …

In a green energy economy, electrocatalysis is essential for chemical energy conversion and
to produce value added chemicals from regenerative resources. To be widely applicable, an …

The urgent need for a stable, efficient, and affordable oxygen evolution reaction (OER)
catalyst has led to the investigation of a vast amount of transition metal materials with …

A strategy to overcome the unsatisfying catalytic performance and the durability of
monometallic iron‐based materials for the electrochemical oxygen evolution reaction (OER) …

Abstract Cu 2 CoSnS 4, Cu 2 SnS 3, Cu 2 CoS 4, Co 2 SnS 3, Cu 2 S, CoS 2, and SnS 2
were synthesized using a one-step solvent-free solid-phase approach. The surface …

Water electrolysis is a possible method for producing ultrapure hydrogen (H2). However, the
typical water electrolysis process has significant overpotential, mostly because of the slow …

Electrocatalytic systems are enormously challenging to understand. Nevertheless, the
complexity of systems reported in the literature constantly increases, with frequent reports on …

An unprecedented molecular 2Fe–2As precursor complex was synthesized and transformed
under soft reaction conditions to produce an active and long-term stable nanocrystalline …