Brookhaven National Laboratory and DOE's Pacific Northwest National Laboratory (PNNL) have uncovered an unexpected interface ...

Czech-based electron microscope manufacturer TESCAN is undergoing a strategic shift, expanding into advanced semiconductor ...

Reducing carbon dioxide (CO2) concentration through electrochemical methods (eCO2RR) in acidic conditions is an important ...

By adapting their quantum twisting microscope to operate at cryogenic temperatures, researchers have made the first ...

A team of materials scientists and engineers affiliated with several institutions in China has found that one of the major ...

Thirty-one years on, the events of the 1994 San Marino Grand Prix weekend still have the power to shock. This extract from ...

Real-time nanoindentation analysis uncovers localized failure mechanisms, transforming materials research and enhancing ...

Researchers at the University of Pittsburgh develop silk iron microparticles for targeted drug delivery using magnetic ...

Riley Carpenter ’25 found a well-rounded education at Santa Clara, designing cutting-edge superconducting thin-film dark ...

With more than 181.5 billion tons of wood produced globally each year, a new method could revolutionize how we build sustainably. By infusing red oak with ferrihydrite using a simple, low-cost process ...

Researchers have figured out how to make wood much stronger by injecting it with iron minerals found in soil. This discovery, while still experimental, might eventually transform how we build ...

A new deep learning method called DLE-EM accelerates SEM imaging of geological materials by up to 16×, enabling large-scale, ...