What if the basic building block for fuels and plastics didn’t come from oil or gas, but from captured CO2 and green hydrogen? You’ve probably heard the buz ...

A new catalyst built from isolated indium atoms allows scientists to convert CO2 into methanol more efficiently while revealing the hidden chemistry that drives the reaction.

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 ...

The synthesis of methanol from carbon dioxide can be dramatically improved by switching the catalyst support from zirconia to ...

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 ...

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 ...

Every chemical reaction faces a barrier: For substances to react with one another, it is first necessary to supply energy. In ...

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 ...

Heterocycles, molecular rings found in many pharmaceuticals, have a reputation for stubbornly resisting modification. That is, in a heterocycle, heteroatoms of one type aren’t easily swapped for ...