The University of Dayton Science and Engineering Catalyst Center (SECC) is designed to foster interdisciplinary research, scholarship, curriculum development and entrepreneurial activities to address ...

Iridium-based catalysts are widely used in green energy technologies, but existing methods to measure active sites on iridium catalysts are imprecise. New research from Northwestern Engineering’s ...

For decades, materials made of Nylon-6 have littered, entangled, and damaged ecosystems — and because this durable plastic does not breakdown for millenia, the situation continues to worsen.

An international research team led by Professor Philip C.Y. Chow at The University of Hong Kong (HKU) has unveiled a new catalyst that overcomes a major challenge in producing green hydrogen at scale.

Affordable, green energy production has long been promoted as a means to accelerate the decarbonization of sectors such as ...

The evolution of carburization (depicted by the spheres) under kinetic control (illustrated by the surface contours). The molecular beams represent gas evolution under synthesis conditions while the ...

Researchers have created a cutting-edge catalyst that turns CO2 into methanol more efficiently than ever before. Instead of ...

The University of Dayton appointed Tam Nguyen and Brian Rigling ’98 as co-directors of its new Science and Engineering Catalyst Center, which brings together scientists and engineers to address ...