Artificial intelligence (AI) is transforming how scientists understand proteins—these are working molecules that drive nearly every process in the human body, from cell growth and immune defense to ...

Over the past few decades, electronics engineers have been trying to develop new neuromorphic hardware, systems that mirror the organization of neurons in the human brain. These systems could run ...

Metals are made of randomly oriented crystals at the microscopic-length scale. The alignment of the crystal faces creates an infinite number of configurations and complex patterns, making simulations ...

US researchers achieve a major milestone after successfully trapping plutonium ion between two Keggin ion molecular cages.

Niels Bohr, a pioneer of quantum theory, believed that every significant challenge contains its own solution, compelling us to adapt our thinking. This philosophy, crucial to scientific breakthroughs ...

Scientists in Germany's Max Planck Institute (MPI) showed that metal surfaces can reshape what atomic motion looks like at the nanoscale.

A new topology-based method predicts atomic charges in metal-organic frameworks from bond connectivity alone, making large-scale computational screening practical.

The institution is rethinking what a museum can be by prioritizing experimentation, artistic production and public engagement over collection building.

Whether a smartphone battery lasts longer or a new drug can be developed to treat incurable diseases depends on how stably ...

Scientists at University of Stuttgart have discovered a completely new type of magnetism in materials that are only a few ...

If you haven’t really looked, your company is both secure and hacked at the same time — and dashboards alone won’t tell you ...

Spin density symmetry breaking in single-atom catalysts can significantly enhance the performance of hydrogen evolution ...