X-ray microcomputed tomography enables noninvasive study of chaotic light dynamics, opening a new window for exploring 3D ...

Researchers achieved wafer-scale, 95% yield memristor circuits, unlocking new potential for dense, efficient AI chips modeled on the human brain.

Stretchable elastomer paints form conductive and insulating layers directly on curved surfaces, enabling multilayer soft ...

In a promising breakthrough, MIT physicists have today reported their observation of new key evidence of unconventional ...

Researchers create cobalt single-atom catalysts in porous carbon nanofibers to speed redox reactions and stop polysulfide ...

A thin organic infrared photodiode uses polaritons for stable, narrowband detection, enabling low-power sensors for medical, ...

Gyromorphs' have chip capabilities essential to the design of cutting-edge computers that use light instead of electricity.

New microscopy and simulations show how water interacts with two forms of chitin, revealing why one is more reactive and a better fit for future bio-based technologies.

Vapor-phase synthesis makes pure, scalable nanomaterials for many industries. A new electrified vapor system works at ...

A new fabrication method guides liquid gallium beneath graphene after lithography, producing durable superconducting devices ...

Black hole images may test competing gravity theories. A new method uses simulations to check if they follow Einstein or ...

New NE-AFM method measures nuclear stiffness in living cells. It shows cancer nuclei change softness with chromatin and ...