Traditional catalysts often waste material because only surface atoms participate in reactions, while the bulk material goes untouched. Single-atom catalysts (SACs) overcome this inefficiency by ...

Chemists have developed a new theoretical framework for more accurately predicting the behavior of catalysts. The study reveals how conditions such as temperature and pressure can change a catalyst's ...

Just when you thought you’d got a handle on the chemistry behind hydrogen fuel cells, researchers at the Fritz Haber ...

Researchers from the Fritz Haber Institute of the Max Planck Society have unveiled fundamental new insights into the working ...

Ishikawa, Japan-- Photocatalysis—a chemical reaction driven by light in the presence of a photocatalyst—is poised to play a key role in next-generation technologies, including hydrogen production ...

Note: This video is designed to help the teacher better understand the lesson and is NOT intended to be shown to students. It includes observations and conclusions that students are meant to make on ...

A Rice University-led team has unveiled how tiny molecular structures on industrial catalysts behave during the manufacture ...

Preparing catalysts by sending hot, steamy car exhaust over them could improve their efficiency and reduce the amount of rare and expensive metals required in vehicle catalytic converters and many ...

Catalytic function and its efficiency play a significant role in industrial reactions, and consistent reforms are made in the ...

Single-atom catalysts are at the cutting edge of catalysis research, offering a blend of high efficiency, selectivity, and sustainability. Single-atom catalysts are defined by their structure where ...