Researchers have developed sophisticated methods that allow directly observing individual nanoparticles during a chemical reaction. This enables to see how the activity changes at different locations on these nanoparticles during the course of the reaction.
Stretchable gold nanowire circuits that can sense and process data could enable smart wearables to detect health changes and autonomously intervene, advancing personalized medicine.
Researchers have superposed two light beams twisted in the clockwise direction to create anti-clockwise twists in the dark regions of the resultant superposition. This discovery has implications for the study of light-matter interactions and represents a step towards the observation of a peculiar phenomenon known as a quantum backflow.
Quantum scientists have discovered a rare phenomenon that could hold the key to creating a 'perfect switch' in quantum devices which flips between being an insulator and superconductor.
Novel nanomaterial that efficiently absorbs and mineralizes harmful NOx and SOx gases at room temperature, offering an eco-friendly air purification solution.
Researchers have developed a novel method for studying protein clumps associated with diseases like ALS, Alzheimer's, and Parkinson's. This technique involves capturing proteins in nano-sized traps, allowing for unprecedented examination of their interactions.
By genetically enhancing the intrinsic pyroelectric properties of viruses, researchers pave the way for biodegradable, ultra-sensitive gas sensors and bio-inspired energy harvesters.
