Liquid-processed transistors achieve high performance at low temps, enabling flexible electronics and wearables through ...
Novel paper-based speakers using printed carbon nanotubes demonstrate exceptional flexibility and sound quality, marking a ...
Imagine placing an object under a microscope and pressing a button to rearrange the surface atoms with atomic-scale precision ...
Researchers use traditional flat-knitting techniques to fabricate flexible, lightweight metasurfaces--large-aperture antennas ...
Researchers investigate an elusive cooling phenomenon in a halide perovskite-based 'dots-in-crystal' material, shedding light ...
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 tiny, four-fingered 'hand' folded from a single piece of DNA can pick up the virus that causes COVID-19 for highly ...
A novel SAXS-MD framework integrates X-ray data with molecular dynamics, unveiling the structural flexibility and dynamic ...
The new material is as strong as conventional plastics and biodegradable, but what makes it special is that it breaks down in ...
Researchers show room-temperature ferroelectricity in tellurium nanowires, enabling self-gated ferroelectric field-effect ...