A simple air-based method produces stable 15-atom iridium nanoclusters that outperform commercial catalysts for green ...

In the early 2000s, Abbott’s research group published findings that led to the development of DESs 1,2,3, which were presented as viable alternatives to ionic liquids and overcome their limitations.

The development of catalysts has long depended on the trial-and-error methods which are time-consuming and often yield inconsistent data. To improve the precision and ...

Volatile organic compounds (VOCs) are major air pollutants, primarily emitted by industrial activities. Due to their toxic, mutagenic, and carcinogenic properties, VOCs pose serious risks to human ...

A groundbreaking study explores Ba-Si orthosilicate oxynitride-hydride (Ba3SiO5 xNyHz) as a sustainable catalyst for ammonia synthesis, offering a potential alternative to traditional transition metal ...

A Korean research team has developed a new chemical synthesis method that allows for the selective attachment of boron (B) to ...

Ammonia is used in fertilizer and many industrial processes. It is also seen as a promising way to store and transport energy, as it is safer and easier to handle ammonia than hydrogen gas. Using ...

Artificial intelligence tools are transforming catalyst research, with new AI agents capable of completing in minutes what ...

Sunlight, water, air and metal-organic catalysts—that could be all it takes. TU Wien has shown how catalyst design can be ...

Researchers developed a visible-light-driven method using bismuthene as a photocatalyst to produce porous semiconducting polymers without metal catalysts under ambient conditions. Porous ...

Why settle for a trial-and-error approach reviewing an almost endless number of combinations when you can systematically ...