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 ...

Every crystal's shape is a mirror of the internal arrangement of its molecules, but the molecules in photoswitchable crystals ...

A setback in growing light-responsive crystals led UB chemist Jason Benedict and his team to a novel method for mapping ...

Machine learning is helping neuroscientists organize vast quantities of cells’ genetic data in the latest neurobiological cartography effort.

Google clarifies campaign consolidation guidance, saying performance and business logic matter more than legacy granularity ...

What if the smallest molecule of life became the ultimate medium for digital storage? Faced with the avalanche of data flooding the planet, researchers are exploring the physical structure of ...

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 ...

Scientists are exploring how DNA’s physical structure can store vast amounts of data and encode secure information.

The research team of Weihong Tan, Xiaohong Fang, and Tao Bing from the Hangzhou Institute of Medical Sciences, Chinese Academy of Sciences, proposed a ...

Metals are made of randomly oriented crystals at the microscopic-length scale. The alignment of the crystal faces creates an infinite number of ...

The signals that drive many of the brain and body's most essential functions—consciousness, sleep, breathing, heart rate and motion—course through bundles of "white matter" fibers in the brainstem, ...