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.

Methanol is a key starting material for chemical products. Researchers can now produce this precursor from CO2 and hydrogen ...

Green hydrogen production technology, which utilizes renewable energy to produce eco-friendly hydrogen without carbon emissions, is gaining attention as a core technology for addressing global warming ...

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 ...

Researchers reveal why trace amounts of alloy added to some catalysts keep them performing better over time. The study suggests models that could boost manufacturing.

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 ...

A recent article in Nature Nanotechnology introduced a novel approach to enhance iridium catalyst performance by coordinating iridium single atoms (Ir 1) with cobalt–iron hydroxides (Co,Fe)-OH and ...