Researchers discover that embedding iridium atoms inside catalyst crystals instead of on the surface dramatically improves ...

The rapid accumulation of plastic waste is currently posing significant risks for both human health and the environment on ...

National University of Singapore (NUS) chemists have developed an “anchoring-borrowing” strategy, combined with facet engineering, to develop a new class of artful single-atom catalysts (ASACs). These ...

A research team at the Politecnico di Milano has developed an innovative single-atom catalyst capable of selectively adapting its chemical activity. This is a crucial step forward in sustainable ...

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 ...

Japanese scientists unveil a catalyst that turns CO₂ into liquid methanol at room temperature with 100% efficiency.

Researchers from Tohoku University have developed a new catalyst structure designed to improve the efficiency and cost-effectiveness of hydrogen production through water electrolysis. The material ...

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 ...

According to a study published in Nature Communications, a research team led by Associate Professor Jiong Lu from the Department of Chemistry at the National University of Singapore devised an ...

As the severity of climate change and carbon emissions becomes a global concern, technologies to convert carbon dioxide (CO₂) into resources such as chemical fuels and compounds are urgently needed.