Quantum physics has a reputation for needing exotic hardware, from liquid-helium-cooled qubits to sprawling AI clusters, just ...

Metallenes are atomically thin metals whose unique properties make them extremely promising for nanoscale applications.

Energy management systems (EMS) enhanced with AI are emerging as the backbone of solar-assisted greenhouse operations. These ...

Sweat is turning into one of medicine’s most revealing data streams, and artificial intelligence is learning how to read it.

Metallenes are atomically thin metals, whose unique properties make them extremely promising for nanoscale applications.

Metallenes are atomically thin metals, whose unique properties make them extremely promising for nanoscale applications.

From bicycles to rockets, learning through experience – whether human or machine – is shaping the future of space exploration ...

The study introduces a three-circle convergence framework, AI, smart functionality and sustainability, demonstrating that the ...

Alan Dye, the mastermind behind Apple's user interface evolution, officially joined Meta to spearhead a new creative studio ...

The Department of Biomedical Engineering Community and Student Engagement Committee organized the first Biomed ENGAGE DESIGN showcase late last month to provide U of A students an opportunity to ...

Future events such as the weather or satellite trajectories are computed in tiny time steps, so the computation must be both ...

The rapid evolution of quantum materials has opened new frontiers in next-generation electronics, energy storage, and quantum computing. However, their ...