Researchers have developed a sustainable catalyst that increases its activity during use while converting carbon dioxide (CO2) into valuable products. This discovery offers a blueprint for designing ...

Scientists have developed an artificial leaf that uses sunlight to convert CO₂ into hydrocarbons, offering a sustainable ...

Researchers have developed a sustainable catalyst that increases its activity during use while converting carbon dioxide (CO2 ...

Scientists have developed a revolutionary catalyst that not only converts CO2 into valuable products but actually increases in activity over time. Made from tin microparticles on a nanotextured carbon ...

This study uses correlated operando microscopy and spectroscopy to examine Cu2O catalyst dynamics in nitrate electroreduction ...

"Precise modeling and advanced computational techniques are enabling us to design catalysts tailored for specific reaction conditions, paving the way for more efficient CO 2 reduction technologies ...

Researchers have developed a sustainable catalyst that increases its activity during use while converting carbon dioxide (CO2) into valuable products ...

"For practical applications of CO2 reduction catalysts, achieving high selectivity across a wide potential range is essential but remains a significant challenge," Professor Jin Kon Kim at Pohang ...

Scientists have made an advancement in the field of electrocatalysis. Their latest research sheds light on how catalysts can stay in unanticipated forms during the process of nitrate reduction. The ...

Researchers have attached copper nanoflower electrocatalysts to an artificial leaf to produce clean fuels and chemicals.

Tiny copper flowers can produce hydrocarbons – the backbone of modern energy and manufacturing – powered entirely by the ...