Bacteria build nanoweapons when their cell envelope is damaged, striking back with precision. Researchers triggered this response using an ultra-sharp tip.
Researchers devised a new method for designing metals and alloys that can withstand extreme impacts, which could lead to the development of automobiles, aircraft and armor that can better endure high-speed impacts, extreme heat and stress.
Scientists encased nanodiamonds in tiny moving droplets of water to improve quantum sensing. The new technique lets researchers detect trace amounts of certain ions and molecules.
A team of researchers has created washable and durable magnetic field sensing electronic textiles - thought to be the first of their kind - which they say paves the way to transform use in clothing.
Researchers review advances in cadmium-free QLEDs, tackling challenges in blue emission, device stability, and color patterning to pave the way for eco-friendly displays.
Researchers improved organic solar cell fabrication by controlling molecular assembly, enhancing efficiency and stability, bringing the technology closer to commercial viability.
Researchers show that Cartan's First Structure Equation links crystal defects to the same mathematical rules governing electric currents and magnetic fields.
Researchers are working to move cold atom quantum experiments and applications from the laboratory tabletop to chip-based systems, opening new possibilities for sensing, precision timekeeping, quantum computing and fundamental science measurements.
