Researchers reveal why trace amounts of alloy added to some catalysts keep them performing better over time. The study ...

Scientists have discovered a way to control chemical reactions by carefully arranging copper atoms on a carbon-based material. With just tiny changes at the atomic scale, the same material can be ...

Researchers report a Cu-based catalyst on graphitic carbon nitride with tunable atomic configurations, revealing that intercalated Cu dual-atom selectively drives CO2 reduction to methane with 88% ...

Almost half a century ago, a remarkable molecule called metallocene took center stage in chemistry, earning Geoffrey Wilkinson and Ernst Otto Fischer the Nobel Prize. These organic compounds, made of ...

Just like we recycle waste, repurposing excess CO2 from the atmosphere could be one way to abate the worsening climate crisis. In electrochemical reduction, CO2 is converted into industrial products ...

The copper isotope Cu-64 plays an important role in medicine: it is used in imaging processes and also shows potential for cancer therapy. However, it does not occur naturally and must be produced ...