Machine learning algorithms that output human-readable equations and design rules are transforming how electrocatalysts for ...

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 ...

Keeping high-power particle accelerators at peak performance requires advanced and precise control systems. For example, the primary research machine at the U.S. Department of Energy's Thomas ...

By transforming movement into data, Timothy Dunn is reshaping how scientists can study behavior and the brain.

Scientists may have spotted a long-lost Soviet Union Lander, over 60 years after it vanished on the surface of the moon.

India is embracing artificial intelligence for space. AI helps track space debris, preventing collisions with satellites.

High-entropy alloys are promising advanced materials for demanding applications, but discovering useful compositions is difficult and expensive due to the vast number of possible element combinations.

By reviewing three decades of AI applications in electrocatalysis, researchers reveal how the field has shifted from isolated data analysis toward end-to-end, data-driven discovery. The work ...

Today the world of Egyptology faces a silent crisis – not of looting, although that plays a part, but of disconnection. Walk into any major museum, from Copenhagen to California, and you see glass ...

Artificial intelligence has become a fixture in healthcare. Yet, despite the excitement, most of what we call “AI innovation” ...

Scientists created a large open database that uses light patterns to help satellites detect plastic in oceans more accurately ...