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

Aluminum is the third-most abundant element in Earth’s crust, after oxygen and silicon. The metal is low cost and highly recyclable, thus making it attractive for chemists looking for more sustainable ...

In light of the waste-to-wealth movement, technology for converting greenhouse gases into value-added materials has gained significant attention in recent years. One such technology is the catalytic ...

Researchers from The University of Osaka created a reagent for important building-block molecules with an abundant main-group element, gallium. These early findings show that an organic gallium ...

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 ...

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

From ammonia synthesis to plastics production, heterogeneous catalysis is a fundamental process in the chemical industry. The catalyst is often in solid form, while other reagents are liquid or ...

Market valued at $27.64B in 2024, projected 3.94% CAGR growth driven by petroleum refining, green chemistry, biocatalysts, and environmental catalyst demand.