The oxygen reduction reaction (ORR) is a key process in fuel cells and metal-air batteries, technologies expected to play a ...

The 0.1wt% ultra-low loading 0.1(PtMnFeCoNi)/TiO₂ high-entropy catalyst developed by our team reduces the complete conversion temperature of CO in sintering flue gas to 230℃. It resists interference ...

Many results of pharmacological studies have unveiled that, chromenes (2H-1-benzopyran derivatives) and xanthenes (dibenzopyrans) have useful biological activities. However, during the last few ...

Researchers have developed a new catalyst architecture that dramatically reduces the amount of expensive precious metals ...

Producing hydrogen through solar water splitting requires the coverage of large land areas. Abundant metal-based molecular catalysts offer scalability, but only if they match noble metal activities.

A research team has visualized the three-dimensional structure of the surface of catalyst nanoparticles at atomic resolution. This structure plays a decisive role in the activity and stability of the ...

Catalysts are the invisible engines of hydrogen energy, governing both hydrogen production and electricity generation.

Important everyday products—from plastics to detergents—are made through chemical reactions that mostly use precious metals such as platinum as catalysts. Scientists have been searching for more ...