What if your electronic devices could adapt on the fly to temperature, pressure, or impact? Thanks to a new breakthrough in ...

SLAC and Stanford achieve ambient-temperature superconductivity in nickelates without high pressure, boosting efficiency.

Osaka University researchers have developed ultrathin vanadium dioxide films on flexible substrates, maintaining electrical properties for advanced electronics.

Ukraine ramps up Chernobyl security after a Russian drone strike sparks nuclear safety fears.

Based on the performance in NEST 2025, a merit list of the candidates will be prepared as specified in the Information ...

“Ordinarily, when a film is placed on a hard substrate, strong surface forces interfere with the atomic structure of the film ...

Findings on PMN-PT films reveal a size effect that enhances properties, offering insights for miniaturized electronics and ...

Researchers have announced results from a new search at the European X-ray Free Electron Laser (European XFEL) Facility at ...

A new study sheds light on how the extreme miniaturization of thin films affects the behavior of relaxor ferroelectrics -- materials with noteworthy energy-conversion properties used in sensors, ...

Three-nucleon force affects nuclear stability, impacting element formation and stellar evolution. The force increases energy ...

The specter of nuclear war cast a long shadow over the 20th century, serving as a reminder of humanity's capacity for ...

Discover the possibilities of twisted bilayer graphene as a replacement for silicon in integrated circuits and it's potential ...