Researchers from Skoltech have uncovered physical principles governing the remote "tuning" of nanocatalysts, where the ...

A Korean research team has successfully developed an advanced electrochemical catalyst. This innovation is expected to lead the next generation of sustainable hydrogen production. The newly developed ...

Scientists have developed a new iron-based catalyst that improves the typically low hydrogen atom economy (HAE) in the direct synthesis of olefins—small hydrocarbon molecules. It converts the water ...

A recent article in Nature Communications describes the direct observation of core–shell metallic nanowire growth using advanced imaging techniques. These methods enable visualization of atomic-scale ...

Simulated ORR activities of Pt(111) and Pt1Ni1@Pt(111) based on pH-dependent microkinetic modeling and validation of synthesized Pt1Ni1/C: Quantitative microkinetic model predicted that the Pt1Ni1@Pt ...

As green hydrogen scales toward gigawatt production, proton-exchange-membrane water electrolysis (PEMWE) is throttled by scarce, high-loading precious-metal catalysts. Now a Shanghai Jiao Tong ...

Scientists have for the first time filmed the real-time growth and contraction of Palladium nanoparticles, opening new avenues for utilising and recycling precious metal catalysts. Scientists have for ...

An international team of researchers from Seoul National University, the Korea Institute of Science and Technology (KIST), and Kookmin University has developed an advanced electrochemical catalyst ...

Core-shell nanoparticles are a captivating class of nanostructured materials that have garnered significant attention from researchers across various fields. These ingeniously designed nanoparticles ...