A research team led by Professor Su-Il In of the Department of Energy Science and Engineering at DGIST has uncovered the ...

Proton exchange membrane water electrolysis is widely regarded as a key technology for large-scale green hydrogen production due to its high efficiency and rapid response to intermittent renewable ...

Zinc–air batteries offer high theoretical energy density, intrinsic safety, and abundant raw materials, making them attractive for large-scale energy storage and flexible electronics. However, their ...

Aluminum's journey has been remarkable, going from being more expensive than gold to one of the most widely used materials, ...

As the climate crisis becomes a part of daily life with unprecedented heat waves and cold snaps, technology to effectively remove greenhouse gases is emerging as a critical global challenge. In ...

Professor Paul Chirik leads a lab researching potential new catalysts for pharmaceutical and commercial applications.

Producing clean hydrogen from water is often compared to storing renewable energy in chemical form, but improving the efficiency of that process remains a scientific challenge. Researchers at Tohoku ...

This new cerium-based catalyst interconverts between two oxidation states with distinct chemical properties, enabling two completely different reactions to occur in the same container. Most of the ...

As the chemical industry looks to cut emissions, reduce toxic waste, and decarbonize its core processes, one area under close watch is catalysis. Catalysts are the unsung heroes of industrial ...

Note: This video is designed to help the teacher better understand the lesson and is NOT intended to be shown to students. It includes observations and conclusions that students are meant to make on ...