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.

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 ...

Technologies that convert carbon dioxide (CO₂) emitted from factories and power plants into useful chemical feedstocks are considered key to achieving carbon neutrality. However, rapid degradation of ...

Researchers have found that manganese, an abundant and inexpensive metal, can be used to efficiently convert carbon dioxide into formate, a potential hydrogen source for fuel cells. The key was a ...

Hydrogen fuel cells could power cars, devices, and homes with nothing but water as a byproduct—but platinum’s cost holds them back. Chinese researchers have now unveiled a breakthrough iron-based ...

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

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

A dual-robot platform fully automates catalyst performance evaluation from sample loading to data collection, completing tests 45 times faster with 32% less variability. (Nanowerk News) A technology ...