A catalyst design developed in the lab of Professor Ted Sargent increases efficiency, turning captured CO₂ into high-purity ethylene for plastics and packaging.

A new catalyst built from isolated indium atoms allows scientists to convert CO2 into methanol more efficiently while revealing the hidden chemistry that drives the reaction.

At the heart of these systems is the catalyst: a highly specialized material that decomposes hydrazine within milliseconds, withstands extreme temperatures, and continues to function reliably after ...

LONDON, UNITED KINGDOM, UNITED KINGDOM, January 20, 2026 /EINPresswire.com/ — Strategic Revenue Insights Inc. The Catalysts for Chemical Manufacturing Market is ...

Sunlight hits tiny particles of plastic floating in a clear water solution. Slowly, they begin to disappear, leaving behind a ...

University of Warwick and MIT scientists reveal hidden microscopic networks on catalyst surfaces that could lead to cleaner and greener chemical processes.

Agricultural plastic mulch films are widely used around the world to increase crop yields, conserve soil moisture, and suppress weeds. However, once these films are discarded, they can persist in the ...

This month, we are thrilled to feature Copernic Catalysts. Copernic develops transformational chemical catalysts through computational design and high-throughput experimentation to reduce the energy ...

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

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