Researchers use traditional flat-knitting techniques to fabricate flexible, lightweight metasurfaces--large-aperture antennas ...
Researchers developed a method to functionalize graphene using a 1-nm dielectric carbon layer, enabling capture molecules to ...
Scientists demonstrate how atomic size differences control metal catalyst structure at nanoscale, achieving major ...
Researchers investigate an elusive cooling phenomenon in a halide perovskite-based dots-in-crystal material, shedding light ...
Researchers unveil a low-toxicity, glass-like material with exceptional X-ray sensitivity, enabling scalable manufacturing ...
Researchers developed the world's first technology for producing highly dispersible carbon nanotube powder, which can be ...
Researchers report development of an innovative intelligent light-guided biohybrid system, the CTPA/siCSF1R system, to target ...
(Nanowerk News) Covalent organic frameworks (COFs) are less stable as catalysts than previously thought but remain highly ...
Scientists have discovered an exciting new approach to generating clean hydrogen energy using a remarkable class of crystals ...
Engineers have found a way to simultaneously mitigate three types of defects in parts produced using a prominent additive manufacturing technique called laser powder bed fusion.
Researchers demonstrated for the first time transverse thermoelectric conversion in the semimetal WSi2, leading to more efficient thermoelectric devices.
The new material is as strong as conventional plastics and biodegradable, but what makes it special is that it breaks down in ...