Push in BTX yield and emission reduction. The results show that Zeopore’s gallium-containing mesoporous ZSM-5 catalysts ...

A new catalyst design could transform how acetaldehyde is made from renewable bioethanol. Researchers found that a carefully ...

A Rice University-led team has unveiled how tiny molecular structures on industrial catalysts behave during the manufacture ...

CatDRX is a generative AI framework developed at Institute of Science Tokyo, which enables the design of new chemical ...

Hydrogen production through water electrolysis is a cornerstone of the clean energy transition, but it relies on efficient and stable catalysts that work under acidic conditions—currently dominated by ...

NH 3 is one of the most important chemicals in today’s world, as it is used in the production of fertilizers to boost agricultural yields and sustain the ever-growing global population. For over 100 ...

Japanese scientists unveil a catalyst that turns CO₂ into liquid methanol at room temperature with 100% efficiency.

Researchers from the University of Houston are using AI and microwave plasma to improve catalysts for renewable energy processes. They aim to accelerate catalyst discovery and enhance efficiency in ...

To date, research in the field of combinatorial catalysts has relied on serendipitous discoveries of catalyst combinations. Now, scientists from Japan have streamlined a protocol that combines random ...

Understanding the reaction pathways and kinetics of catalytic reactions at the atomic scale is critical to designing catalysts for more energy-efficient and sustainable chemical production, especially ...