Emulating the edge of chaos of axons enables a metal wire to overcome its resistance without cooling, thereby amplifying signals flowing inside of it.
In the unusual world of quantum materials, metals can guide light in their interiors instead of merely reflecting it.
Machine learning and artificial intelligence accelerate nanomaterials investigations.
Crystalline nanoribbons synthesized to resonate with infrared light for imaging, sensing, and signaling pass a crucial test.
Researchers find a way to improve the stability of hybrid organic-inorganic crystals called mixed halide-perovskites, a promising material for solar cells.
Researchers discover key details of how to drive photosynthesis in the shade by studying far-red light acclimation in cyanobacteria.
New device promises power generation in total darkness
Physicists show unconventional pairing in a new type of superconductor that could be useful for quantum computing
Controlled pulses of chemicals over a wide pressure range can link fundamental studies to practical performance, informing catalyst design.
Controlled pulses of chemicals over a wide pressure range can link fundamental studies to practical performance, informing catalyst design.
Read more about Crossing the Great Divide Between Model Studies and Applied Reactors in Catalysis
The two most abundant elements in the universe, hydrogen and helium, were previously thought to be impossible to measure by X-ray photoelectron spectroscopy.
Read more about X-ray Spectroscopy of Hydrogen and Helium
A new chemical process converts a component of wasted wood pulp and other biomass into high-value pressure-sensitive adhesives.
