Designed a "core-shell structure catalyst" using cost-effective ruthenium to improve its potential for commercialization.

Cement manufacture is a huge carbon emitter. A by-product of splitting seawater might make the process more environmentally friendly.

Platinum group metals (PGMs), especially platinum and palladium, are crucial for pushing hydrogen energy tech forward. In PEM fuel cells, platinum acts as a catalyst. It speeds up the reactions ...

Hydrogen's role as a clean energy source is expanding, driving demand for accurate flow measurement in diverse applications ...

Decreasing the dependence on expensive platinum-group metals like iridium is vital for the expansion of “green” hydrogen ...

Scientists from Skoltech, the Institute of Nanotechnology of Microelectronics, RAS, and other research centers have refined ...

A team of materials scientists, chemical engineers, and environmental scientists affiliated with a host of institutions in ...

Global assessments of the climate change mitigation potential of biochar diverge, and many rely on a dated analysis, but there is strong evidence for gigaton-scale contribution, concludes a ...

Mar. 20, 2025 — Researchers have engineered yeast to efficiently convert methanol into D-lactic acid, a key compound for biodegradable plastics and pharmaceuticals. By optimizing gene and ...

A team of researchers from UNIST has developed a new technology that uses solar energy to produce ammonia and glycolic acid—an essential component in cosmetics—while eliminating carbon dioxide ...

Here, the authors report a core/shell nanoparticle design with a Pt 3 Fe core and an atomically-thin, porous N-doped carbon shell that reduces ionomer poisoning and improves fuel cells performance.