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 ...

Scientists have made an advancement in the field of electrocatalysis. Their latest research, published in the journal Nature Materials, sheds light on how catalysts can stay in unanticipated forms ...

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

Electrocatalysis is a type of catalysis that results in the modification of the rate of an electrochemical reaction occurring on an electrode surface. The relative electrocatalytic properties of a ...

This class presents the fundamentals of electrochemistry and applies these principles to a variety of electrocatalytic processes, especially those with relevance to sustainable chemical and fuel ...

Fuel cells and electrocatalysis are critical areas of research aimed at developing efficient energy conversion technologies. Fuel cells convert chemical energy directly into electrical energy ...

A nanoscale tin catalyst boosts sustainable conversion of CO2 into valuable products, offering a blueprint for ...

The sustainable chemistry start-up Mattiq will work with the materials supplier Heraeus Precious Metals to develop electrocatalysts that use less iridium than conventional catalysts. Iridium is a ...

If electrocatalysis is used for this, many potentially different potential molecules are formed, which cannot necessarily be used. Biocatalysts, on the other hand, are selective and only produce ...

If electrocatalysis is used for this, many potentially different potential molecules are formed, which cannot necessarily be used. Biocatalysts, on the other hand, are selective and only produce ...