A Korea Institute of Materials Science (KIMS) research team, led by Dr. Dahee Park at the Hydrogen Energy Materials Research Center, has successfully developed a high-performance catalyst that ...

A research team has developed a new strategy to improve catalysts used to remove nitrogen oxides from industrial emissions. By using ethanol during catalyst preparation, the scientists significantly ...

Researchers have created a cutting-edge catalyst that turns CO2 into methanol more efficiently than ever before. Instead of using clumps of metal atoms, they engineered a system where each single ...

Offers insights into the material degradation process of carbon-based catalysts The importance of advancing electrochemical energy technologies to meet the world's energy needs in the coming decades ...

The conversion of carbon dioxide (CO₂) into carbon monoxide (CO), an industrial feedstock, has attracted significant ...

Researchers have developed electrochemical methods that break down waste PET plastic, the material in most disposable water ...

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.

Dramatic improvements have been made to the process of converting carbon dioxide, a greenhouse gas, to methanol, a fuel and building block for a wide range of everyday materials, according to ...

In the future, perhaps we’ll be mining our landfills and fishing through our oceans for the raw materials to make fuel. Using a two-catalyst process, a joint U.S.-China team of researchers has figured ...