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

I’ve been writing about consumer technology and video games for more than a decade at a variety of publications, including Destructoid, GamesRadar+, Lifewire, PCGamesN, Trusted Reviews, and What Hi-Fi ...

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 ...

Sealed inside a steel tube at crushing depth, breathing manufactured air, eating off the same table where surgery will be ...

Drug discovery is like molecular Tetris. Chemists snap atoms together, adjusting the pieces until everything fits, and ...

Born in Brooklyn in 1942, Freed’s scientific trajectory began early; he and his brother Jack, who himself would go on to ...

In the German research project bioPEtex, BB Engineering (BBE) is working with other partners to develop textiles made from 100% bio-based polyethylene (PE). The aim is to make use of this polymer, ...

A team of UC Santa Barbara engineering and molecular biology graduate students has developed software to accelerate the discovery process for therapies aimed at treating Alzheimer’s and other diseases ...

Don Cavallaro,, candidate for Rye Select Board in 2026, answers questions on key issues ahead of the March 10 election.

STEM education is thriving across Carle Place Schools, with students at every level engaging in hands-on, inquiry-based ...

The DNA foundation model Evo 2 has been published in the journal Nature. Trained on the DNA of over 100,000 species across ...

Frances Arnold's game-changing technique of "directed evolution" creates enzymes with unusual capabilities. Her own evolution made it possible.