Machine learning redesigns microscopic web sensors to be five times more flexible than nature-inspired versions, enabling detection of masses as small as trillionths of a gram.

In A Nutshell Harvard researchers developed BrainIAC, a single AI model that can be adapted to analyze brain scans for ...

A new metasurface design lets light of different spins bend, focus, and behave independently—while staying sharp across many ...

A new study reveals that sleep types are more varied than simply larks and night owls – and questions the link between rising ...

Microgrids play a growing role in modern power systems, supporting renewable integration, local resilience, and decentralized energy management. Yet as renewable penetration rises, maintaining stable ...

Engineered DNA can store massive amounts of data while also encrypting it, opening the door to ultra-secure, long-term ...

Dispersion is an inherent feature of electromagnetic waves. It allows light to behave differently at different wavelengths, which can be useful, but it also creates chromatic aberrations. As bandwidth ...

Discover how researchers are overcoming the limitations of the undruggable target in drug discovery using novel approaches ...

Google DeepMind, the artificial intelligence subsidiary of Alphabet, has made another leap in its efforts to illuminate human ...

Viruses attack nearly every living organism on Earth. To do so, they rely on highly specialized proteins that recognize and ...