A squishy, layered material that dramatically transforms under pressure could someday help computers store more data with ...

Now, researchers at the University of Toronto have taken a big leap in this field. By combining machine learning with 3D nano ...

Strange metals challenge the 60-year-old theory that electric current consists of a flow of discrete charges. Strange metals ...

A recent study found that the Hubbard model failed to accurately predict the behavior of a simplified one-dimensional cuprate ...

QEPNT Hub develops quantum-enabled navigation technologies, addressing GNSS vulnerabilities and enhancing resilience for ...

A revolutionary solar material has hit 93.5% efficiency—rewriting the rules of solar power and challenging the dominance of ...

The study of charge density wave (CDW) phenomena in superconductors has long been central to understanding the complex ...

Researchers found a strategy to create catalysts that make the production of hydrogen for clean fuel more efficient and ...

In the strange and fascinating world of quantum mechanics, particles have long been sorted into just two types: fermions and ...

The material could someday be used in flexible semiconductors, tear-resistant textiles, bioengineering scaffolds, and more.

The NEET UG syllabus includes Physics, Chemistry and Biology (Botany and Zoology). Candidates can download the latest NEET ...

The presence of disorder causes worms to speed up, not slow down – a surprising result with applications in robotics ...