Georgia Tech scientists use mechanical force to break down PET plastic, paving the way for cleaner, faster recycling.

Yu Jing and Gao Huajian and Dr. Chen Quan developed BNOSE, a class of supramolecular elastomers based on boron-nitrogen (B-N) coordination and boron oxygen (B-O) dynamic bonding that exhibits ...

While plastics help enable modern standards of living, their accumulation in landfills and the overall environment continues to grow as a global ...

In a new study, scientists have shown that chemical receptors that plants use to recognize nitrogen-fixing bacteria have ...

In the twelfth installment of "" Frank Leibfarth, Royce Murray Distinguished term Professor of Chemistry, speaking on the ...

Targeted drug delivery is a powerful and promising area of medicine. Therapies that pinpoint the exact areas of the body ...

Milena Aarts looks into how birds use the Earth's magnetic field to migrate south, and why it's the subject of key research ...

Yaghi created a field called reticular chemistry, which involves stitching together molecular building blocks to form porous ...

Activists, residents and elected leaders say increasingly combative tactics used by federal immigration agents are sparking ...

While occasional washes are important, there are a few extra steps you can take to keep your car looking brand new at all ...

In order to efficiently dehydrogenate propane to propene over CoOx/Silicalite-1, supported CoOx species no larger than 2 nm should be reduced in situ to metallic Co0 and then become decorated with ...

CANS process has proven the ability to chemically relink carbon-hydrogen bond sites, refunctionalizing polymer ...