Scientists experimentally confirm electron vortices in momentum space, a quantum phenomenon that could enable efficient, low-energy quantum technologies.
A novel nanotechnology approach identifies subtle cellular differences, enhancing early disease diagnosis and potentially improving outcomes for chronic conditions and cancer.
Scientists develop nanoparticles that monitor cancer cell death by detecting potassium release, allowing doctors to optimize the timing of photodynamic therapy and improve treatment outcomes.
Researchers have successfully developed an innovative electrode material called Conductive-Bridge Interlayer Contact (CBIC), enabling the realization of a 2D semiconductor-based image sensor with high optical signal efficiency.
Researchers have achieved a remarkable result: capturing and studying phase changes in quantum hardware, which hold hold promise for next-generation technologies like quantum computing and ultra-sensitive sensors.
