The real magic is in atomic precision. Instead of bulky metal clusters that can sinter and slow down, this catalyst embeds solo palladium atoms into an indium oxide lattice—each atom acting as a ...

Scientists developed a single-atom iridium catalyst that drives both water-splitting reactions on one electrode, using 98.5% less precious metal for cheaper green hydrogen. (Nanowerk News) Green ...

This schematic illustrates the fabrication of a single-atom catalyst by introducing a molecular anchoring agent (phytic acid) into a manganese (Mn)-nickel (Ni) layered double hydroxide (LDH) framework ...

Professor Pan Xu's research group at Southeast University reported a photocatalytic hydrogen atom transfer (HAT) strategy, successfully achieving the deconjugated olefin isomerization reaction of ...

Anchoring single metal atoms on ultrathin supports improves catalyst efficiency and stability, making hydrogen production cleaner, more scalable, and less dependent on scarce metals. (Nanowerk ...

How long does a free neutron really live before it decays? This simple question has annoyed physicists for decades. Moreover, when they searched for an answer, they found not one but two confusing ...

Two materials physicists at The University of Sydney have found a possible explanation for the huge amount of molecular hydrogen in space. In their study published in the journal Communications ...

Conventional thinking holds that the metal site in single atom catalysts (SACs) has been a limiting factor to the continued improvement of the design and, therefore, the continued improvement of the ...

NORMAN, OKLA. – Researchers from the University of Oklahoma have pioneered a method to measure hydrogen transfer energy in complex materials, paving the way for advancements in energy storage and ...