A team led by principal investigators Bobo Dang and Ting Zhou at Westlake University/Westlake Laboratory have developed a ...

L1, termed IB101, which was found to form a defined binding pocket that precisely positions the active moiety in a reactive conformation.

A team led by principal investigators Bobo Dang and Ting Zhou at Westlake University/Westlake Laboratory reported in Science a high-throughput platform for engineering fast-acting covalent protein ...

So the waste problem in 3D printing is really a chemistry problem. Once these materials harden, they’re locked into their final state. The Korea Research Institute team set out to find a chemical bond ...

In the world of advanced materials, the ultimate goal is to create a substance that possesses the adaptability of biological ...

Chiral nanomaterials have great potential for enhancing clinical therapeutic efficacy, attributed to the distinctive chiral selectivity in biosystems. Herein, we designed chiral iron single-atom ...

One of the greatest mysteries of the universe is what happens to all the socks that go missing in the laundry, but science ...

Because a junk food binge doesn’t just hit your waistline — it leaves a metabolic scar, and in the last place you’d ever want ...

Welcome to Office Hours, a series brought to you by the Features section! In these articles, Argus writers speak to faculty, ...

A new study uses theoretical modelling to reveal the key role of graphene in TiO2/graphene photocatalytic composites. Presence of defects in graphene is found to enable covalent bonding between ...