Novel paper-based speakers using printed carbon nanotubes demonstrate exceptional flexibility and sound quality, marking a ...

Liquid-processed transistors achieve high performance at low temps, enabling flexible electronics and wearables through ...

Imagine placing an object under a microscope and pressing a button to rearrange the surface atoms with atomic-scale precision ...

Researchers investigate an elusive cooling phenomenon in a halide perovskite-based 'dots-in-crystal' material, shedding light ...

Researchers use traditional flat-knitting techniques to fabricate flexible, lightweight metasurfaces--large-aperture antennas ...

Researchers used advanced electron microscopy to capture 3D images of RNA nanoparticles during folding, revealing new ...

Researchers developed a method to functionalize graphene using a 1-nm dielectric carbon layer, enabling capture molecules to ...

Taking into account a phenomenon first identified by Sir Isaac Newton and later confirmed by Albert Einstein, researchers ...

A novel SAXS-MD framework integrates X-ray data with molecular dynamics, unveiling the structural flexibility and dynamic ...

Researchers show room-temperature ferroelectricity in tellurium nanowires, enabling self-gated ferroelectric field-effect ...

A tiny, four-fingered 'hand' folded from a single piece of DNA can pick up the virus that causes COVID-19 for highly ...

The new material is as strong as conventional plastics and biodegradable, but what makes it special is that it breaks down in ...