Water splitting is a promising technique in the sustainable “green hydrogen” generation to
meet energy demands of modern society. Its industrial application is heavily dependent on …

Solid oxide fuel cells (SOFCs) produce electrical power with high efficiency via the
electrochemical reaction of fuel with air. In addition to hydrogen, SOFCs are capable of …

High-temperature devices are eco-friendly devices with the potential to become efficient
systems for energy conversion and storage. The stability of components within solid oxide …

The development of efficient electrocatalysts became vital to resolving the ongoing clean
energy crises and environmental issues, wherein high-performance catalysts for the …

Making a measurement over millions of nanoparticles or exposed crystal facets seldom
reports on reactivity of a single nanoparticle or facet, which may depart drastically from …

Exsolution, a result of in situ growing nanoparticles on the backbone materials via the
migration of inner atoms to the surface, has been regarded as an effective strategy for …

The slow water dissociation is the rate-determining step that slows down the reaction rate in
alkaline hydrogen evolution reaction (HER). Optimizing the surface electronic structure of …

Offshore hydrogen production through water electrolysis presents significant technical and
economic challenges. Achieving an efficient hydrogen evolution reaction (HER) in alkaline …

The growth of layered double hydroxide (LDH) structures on transition-metal substrates
shows great potential for generating highly effective and low-cost water electrolysis …

In this study, a facile and green PLAL technique was used to synthesize nanohybrids
consisting of SrTiO 3/CdSe, as efficient cathode material for electrocatalytic HER in a basic …