As the severity of climate change and carbon emissions becomes a global concern, technologies to convert carbon dioxide (CO 2) into resources such as chemical fuels and compounds are urgently needed.

Catalyst surfaces work as coordinated networks, not isolated hotspots, a new study reveals, opening doors to designing more efficient catalysts for clean energy.

Senior chemist Di-Jia Liu inspects catalyst sample inside tube furnace after heat treatment while postdoc Chenzhao Li carries a pressure reactor for catalyst synthesis. Image by Argonne National ...

A technology has been developed that uses robots rather than humans to evaluate the performance of newly developed catalysts. By operating 45 times faster than manual work while also improving ...

A research team at the KIER have created a fully automated robotic platform that replaces human operators in catalyst ...

A plentiful supply of clean energy is lurking in plain sight. It is the hydrogen we can extract from water (H 2 O) using renewable energy. Scientists are seeking low-cost methods for producing clean ...

University of Warwick and MIT scientists reveal hidden microscopic networks on catalyst surfaces that could lead to cleaner and greener chemical processes.

A new catalyst structure offers a potential pathway toward more cost-effective hydrogen production via water electrolysis. The material centers on mesoporous single-crystalline Co3O4 doped with ...

At Summit Brewing Co.’s canning facility in St. Paul, a conveyor belt springs to life at the push of a button. Cans of beer would usually run along the belt, but not today; this is just for ...

Scientists have developed a new material that uses sunlight to break down PFAS, a group of long-lasting pollutants often ...