New observation could provide way to increase the strength of interaction between light and matter, eventually leading to smaller lasers and other improved photonic technologies.
Researchers developed a new manufacturing technique for silicon/nitrogen-doped carbon composite anode materials. These materials aim to enhance the capacity and stability of lithium-ion battery anodes.
Lead-vacancy color center in diamond offers robust quantum emission with high-temperature stability and sharp zero-phonon-line for large-scale quantum networks.
Researchers have invented a new optical element that brings us one step closer to mixing the real and virtual worlds in an ordinary pair of eyeglasses using high-definition 3D holographic images.
Au-decorated BiFeO3 nanocrystals show promise as efficient photocatalysts for pollutant degradation, enhancing understanding of noble-metal interactions.
Using mechanical strain to precisely control quantum transport properties in graphene paves the way for a new generation of tunable nanoelectronics and quantum technologies.
A new model extends the theory of elastic phase separation towards nanoscopic structures. With their new insights, scientists can predict the length scale of nanoscopic patterns and thus control them during production.
Researchers find that rice bran, an agricultural waste product, is a source of therapeutic pdNPs that are affordable, effective, and safe, and has the potential to revolutionize cancer treatment in the future.
Scientists have developed fundamental experiments and theories to manipulate the geometry of the 'electron universe,' which describes the structure of electronic quantum states in a manner mathematically similar to the actual universe, within a magnetic material under ambient conditions.
This is the first highly selective nanosensor for salicylic acid - a plant hormone key in mediating plant stress response and adaptation - that has been validated in living plants.
