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

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

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, ...

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

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.

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

A new approach could help a search-and-rescue robot navigate an unpredictable environment by rapidly generating an accurate ...

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

Electrically controlled silicon photonic devices use carbon nanotube heaters to modulate and filter terahertz waves on chip ...

A team of researchers has demonstrated a plasma lens capable of focusing attosecond pulses. This breakthrough substantially ...

Scientists can now create and control tiny internal defects in ultra-thin materials, enabling new properties and potential breakthroughs in nanotechnology.