Materials scientists at the University of Minnesota Twin Cities have found a way to create and control tiny "flaws" inside ...

Scientists can now create and control tiny internal defects in ultra-thin materials, enabling new properties and potential breakthroughs in nanotechnology.

The FMI report, “Stretch Film Industry Analysis in Korea: Market Size, Share, and Forecast 2025–2035,” highlights that ...

A new study reveals that insulating buffer layers are no longer needed for ultrathin magnetic racetrack devices, unlocking ...

Combining indentation testing with high-resolution imaging enables accurate detection of critical delamination loads.

At 4 degrees Kelvin, most electro-optic materials falter. Nanoelectronics R&D center imec has now successfully engineered ...

At K 2025, TotalEnergies Polymers unveiled downgauged, recyclable films for stand-up pouches, deep-freeze bags, and oil ...

Researchers from Tokyo Metropolitan University have developed a new atomically layered material which experiences a five order of magnitude resistivity reduction when oxidized, more than a hundred ...

A four-year analysis conducted at a testing field in eastern Poland has shown that crystalline solar panels offer a stronger performance than thin-film panels at high latitudes. The tests revealed ...

Researchers at imec, Leuven, Belgium, in collaboration with KU Leuven and Ghent University, have re-engineered a common crystal, strontium titanate (SrTiO 3) so it behaves with record performance at ...

A research team from Queen Mary University of London has discovered a new way to engineer thin films that can “tune” themselves much more effectively than existing materials, making them highly ...