Study reveals defects in graphene enable covalent bonding with TiO2, creating hybrid states that boost charge transfer and ...

Scientists have zoomed in on how phosphoric acid moves electrical charges so efficiently in both biology and technology. By ...

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

Bacteria can chemically bond per- and polyfluoroalkyl substances, commonly known as PFAS or “forever chemicals,” directly into their cell membranes, according to a peer-reviewed study led by ...

Wang earned a DOE early career grant to develop devices that link quantum computers into long-distance quantum networks.

Creating artificial systems that mimic the functioning of cells is one of the goals of what is known as synthetic biology.

Researchers at Ouachita Baptist University have developed stitches loaded with anti-inflammatory drugs that deliver ...

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

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 ...

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 ...

Solar powered-inspired technology currently used in medical facilities could represent a new approach to disinfection and biosecurity for the poultry industry, offering better protection against ...